Skip to content

Journeys of Life StoryMD Health Communities

Coronary Heart Disease

Table of Contents

Coronary Heart Disease

Atherosclerosis is a disease in which fatty deposits called plaque build up inside arteries. Plaque is progressively increasing in an artery overtime.

Image by TheVisualMD

About

Low Density Lipoprotein: Clogged Arteries (Atherosclerosis) / Plaque in Coronary Artery, close up

Plaque in Coronary Artery / Leading to a Heart Attack

Interactive by TheVisualMD

Coronary Heart Disease

Coronary artery disease (CAD) is the most common type of heart disease. It is the leading cause of death in the United States in both men and women.

CAD happens when the arteries that supply blood to heart muscle become hardened and narrowed. This is due to the buildup of cholesterol and other material, called plaque, on their inner walls. This buildup is called atherosclerosis. As it grows, less blood can flow through the arteries. As a result, the heart muscle can't get the blood or oxygen it needs. This can lead to chest pain (angina) or a heart attack. Most heart attacks happen when a blood clot suddenly cuts off the hearts' blood supply, causing permanent heart damage.

Over time, CAD can also weaken the heart muscle and contribute to heart failure and arrhythmias. Heart failure means the heart can't pump blood well to the rest of the body. Arrhythmias are changes in the normal beating rhythm of the heart.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (21)

Medical animation still showing Coronary artery disease

3D medical animation still showing reduced blood flow in preventing the heart muscle from receiving enough oxygen.

Image by Scientific Animations, Inc.

Balloon Angioplasty Coronary Angioplasty Heart Surgery PreOp® Patient Education

Video by PreOp.com Patient Engagement - Patient Education/YouTube

Heart - Stent Implantation Coronary Angioplasty PreOp® Patient Education HD

Video by PreOp.com Patient Engagement - Patient Education/YouTube

Preventing coronary heart disease

Video by Bupa Health UK/YouTube

How coronary heart disease (atherosclerosis) develops

Video by Bupa Health UK/YouTube

Stent Implantation Coronary Angioplasty Surgery PreOp® Patient Education

Video by PreOp.com Patient Engagement - Patient Education/YouTube

Coronary heart disease, clogged arteries and atherosclerosis

Video by British Heart Foundation/YouTube

Risk Factors for Coronary Heart Disease

Video by NoteworthyExperts/YouTube

Acute Coronary Syndrome DETAILED Overview (MI, STEMI, NSTEMI)

Video by Armando Hasudungan/YouTube

What is coronary artery disease?

Video by Swedish/YouTube

Stents for blocked arteries versus medication and lifestyle changes

Video by NPS MedicineWise/YouTube

Genetic Risk Information for Coronary Heart Disease Leads to Lower Bad Cholesterol

Video by Mayo Clinic/YouTube

What causes a heart attack?

Video by multiedmedical/YouTube

What is Coronary Artery Disease - Mechanism of Disease

Video by Thrombosis Adviser/YouTube

Risk factors for coronary artery disease | Circulatory System and Disease | NCLEX-RN | Khan Academy

Video by khanacademymedicine/YouTube

Coronary Artery Disease - Signs & Symptoms

Video by SingHealth/YouTube

VIDEO: Coronary Artery Disease (CAD) in Women

Video by WomenHeartTV/YouTube

Q & A with Dr. Hazen about Coronary Artery Disease Prevention

Video by Cleveland Clinic/YouTube

Coronary Calcium Score: Basics and Beyond

Video by Mayo Clinic/YouTube

Coronary Artery Disease: Knowing and Lowering the Risks

Video by MassGeneralHospital/YouTube

Heart Disease in Women - Mayo Clinic

Video by Mayo Clinic/YouTube

Medical animation still showing Coronary artery disease

Scientific Animations, Inc.

6:19

Balloon Angioplasty Coronary Angioplasty Heart Surgery PreOp® Patient Education

PreOp.com Patient Engagement - Patient Education/YouTube

5:44

Heart - Stent Implantation Coronary Angioplasty PreOp® Patient Education HD

PreOp.com Patient Engagement - Patient Education/YouTube

4:37

Preventing coronary heart disease

Bupa Health UK/YouTube

1:37

How coronary heart disease (atherosclerosis) develops

Bupa Health UK/YouTube

1:25

Stent Implantation Coronary Angioplasty Surgery PreOp® Patient Education

PreOp.com Patient Engagement - Patient Education/YouTube

1:21

Coronary heart disease, clogged arteries and atherosclerosis

British Heart Foundation/YouTube

4:22

Risk Factors for Coronary Heart Disease

NoteworthyExperts/YouTube

24:11

Acute Coronary Syndrome DETAILED Overview (MI, STEMI, NSTEMI)

Armando Hasudungan/YouTube

1:59

What is coronary artery disease?

Swedish/YouTube

6:39

Stents for blocked arteries versus medication and lifestyle changes

NPS MedicineWise/YouTube

2:46

Genetic Risk Information for Coronary Heart Disease Leads to Lower Bad Cholesterol

Mayo Clinic/YouTube

2:54

What causes a heart attack?

multiedmedical/YouTube

2:38

What is Coronary Artery Disease - Mechanism of Disease

Thrombosis Adviser/YouTube

12:34

Risk factors for coronary artery disease | Circulatory System and Disease | NCLEX-RN | Khan Academy

khanacademymedicine/YouTube

2:19

Coronary Artery Disease - Signs & Symptoms

SingHealth/YouTube

8:02

VIDEO: Coronary Artery Disease (CAD) in Women

WomenHeartTV/YouTube

12:01

Q & A with Dr. Hazen about Coronary Artery Disease Prevention

Cleveland Clinic/YouTube

14:18

Coronary Calcium Score: Basics and Beyond

Mayo Clinic/YouTube

4:31

Coronary Artery Disease: Knowing and Lowering the Risks

MassGeneralHospital/YouTube

2:06

Heart Disease in Women - Mayo Clinic

Mayo Clinic/YouTube

How the Heart Works

Human Heart Displaying Aorta and Coronary Artery

1

2

3

Human Heart

Interactive by TheVisualMD

How the Heart Works

The heart is an organ about the size of your fist that pumps blood through your body. It is made up of multiple layers of tissue.

Your heart is at the center of your circulatory system. This system is a network of blood vessels, such as arteries, veins, and capillaries, that carries blood to and from all areas of your body. Your blood carries the oxygen and nutrients that your organs need to work properly. Blood also carries carbon dioxide to your lungs so you can breathe it out. Inside your heart, valves keep blood flowing in the right direction.

Your heart’s electrical system controls the rate and rhythm of your heartbeat. A healthy heart supplies your body with the right amount of blood at the rate needed to work well. If disease or injury weakens your heart, your body’s organs will not receive enough blood to work normally. A problem with the electrical system—or the nervous or endocrine systems, which control your heart rate and blood pressure—can also make it harder for the heart to pump blood.

Anatomy of Your Heart

Your heart is in the center of your chest, near your lungs. It has four hollow heart chambers surrounded by muscle and other heart tissue. The chambers are separated by heart valves, which make sure that the blood keeps flowing in the right direction.

Heart Chambers

The two upper chambers of your heart are called atria, and the two lower chambers are called ventricles. Blood flows from the body and lungs to the atria and from the atria to the ventricles. The ventricles pump blood out of the heart to the lungs and other parts of the body. An internal wall of tissue divides the right and left sides of your heart. This wall is called the septum.

Heart Tissue

The heart is made of three layers of tissue.

Endocardium, the thin inner lining of the heart chambers that also forms the surface of the valves.
Myocardium, the thick middle layer of muscle that allows your heart chambers to contract and relax to pump blood to your body.
Pericardium, the sac that surrounds your heart. Made of thin layers of tissue, it holds the heart in place and protects it. A small amount of fluid between the layers helps reduce friction between the beating heart and surrounding tissues.

Some conditions can affect the heart's tissue. Examples include:

Cardiomyopathy,in which the heart muscle becomes enlarged, thick, or rigid. As cardiomyopathy worsens, the heart becomes weaker and is less able to pump blood through the body and maintain a normal electrical rhythm.
Heart inflammation, which is inflammation in one or more of the layers of tissue in the heart, including the pericardium, myocardium, or endocardium. This can lead to serious complications, including heart failure, cardiogenic shock, or irregular heart rhythm.

Blood Flow

Arteries and veins link your heart to the rest of the circulatory system. Veins bring blood to your heart. Arteries take blood away from your heart. Your heart valves help control the direction the blood flows.

Heart valves

Heart valves control the flow of blood so that it moves in the right direction. The valves prevent blood from flowing backward.

The heart has four valves.

The tricuspid valve separates the right atrium and right ventricle.
The mitral valve separates the left atrium and left ventricle.
The pulmonary valve separates the right ventricle and the pulmonary artery.
The aortic valve separates the left ventricle and aorta.

The valves open and shut in time with the pumping action of your heart's atria and ventricles. The opening and closing involves a set of flaps called cusps or leaflets. The cusps open to allow blood to flow out of a chamber and close to allow the chamber to refill with blood. Heart valve diseases can cause backflow or slow the flow of blood through the heart.

Adding Oxygen to Blood

Oxygen-poor blood from the body enters your heart through two large veins called the superior and inferior vena cava. The blood enters the heart's right atrium and is pumped to your right ventricle, which in turn pumps the blood to your lungs.

The pulmonary artery then carries the oxygen-poor blood from your heart to the lungs. Your lungs add oxygen to your blood. The oxygen-rich blood returns to your heart through the pulmonary veins.

The oxygen-rich blood from the lungs then enters the left atrium and is pumped to the left ventricle. The left ventricle generates the high pressure needed to pump the blood to your whole body through your blood vessels.

When blood leaves the heart to go to the rest of the body, it travels through a large artery called the aorta. A balloon-like bulge, called an aortic aneurysm, can sometimes occur in the aorta.

Supplying Oxygen to the Heart's Muscle

Like other muscles in the body, your heart needs blood to get oxygen and nutrients. Yourcoronary arteries supply blood to your heart. These arteries branch off from the aorta so that oxygen-rich blood is delivered to your heart as well as the rest of your body.

The left coronary artery delivers blood to the left side of your heart, including your left atrium and ventricle and the septum between the ventricles.
The circumflex artery branches off from the left coronary artery to supply blood to part of the left ventricle.
The left anterior descending artery also branches from the left coronary artery and provides blood to parts of both the right and left ventricles.
The right coronary artery provides blood to the right atrium and parts of both ventricles.
The marginal arteries branch from the right coronary artery and provide blood to the surface of the right atrium.
The posterior descending artery also branches from the right coronary artery and provides blood to the bottom of both ventricles.

Some conditions can affect normal blood flow through these heart arteries. Examples include:

Angina
Heart attack
Ischemic heart disease

The coronary veins return oxygen-low blood from the heart's muscles back to the right atrium so it can be pumped to the lungs. They include:

The anterior cardiac veins.
The great cardiac vein.
The middle cardiac vein.
The small cardiac vein.

Your Heart's Electrical System

Your heartbeat is the contraction of your heart to pump blood to your lungs and the rest of your body. Your heart's electrical system determines how fast your heart beats.

Your heartbeat

The contraction of the atria and ventricles makes a heartbeat. When your heart beats, it makes a “lub-DUB” sound. You may have heard this if you listened with a stethoscope or with your ear on someone's chest.

After your atria pump blood into the ventricles, the valves between the atria and ventricles close to prevent backflow. The “lub” is the sound of these valves closing.
After your ventricles contract to pump blood away from the heart, the aortic and pulmonary valves close and make the “DUB” sound.

Electrical activity

Electrical signals cause muscles to contract. Your heart has a special electrical system called the cardiac conduction system. This system controls the rate and rhythm of the heartbeat.

With each heartbeat, an electrical signal travels from the top of the heart to the bottom. As the signal travels, it causes the heart to contract and pump blood. The heartbeat process includes the following steps.

The signal begins in a group of cells, called pacemaker cells, located in the sinoatrial (SA) node in the right atrium.
The electrical signal travels through the atria, causing them to pump blood into the ventricles.
The electrical signal then moves down to a group of pacemaker cells called the atrioventricular (AV) node, located between the atria and the ventricles. Here the signal slows down slightly, allowing the ventricles time to finish filling with blood.
The AV node fires another signal that travels along the walls of your ventricles, causing them to contract and pump blood out of your heart.
The ventricles relax, and the heartbeat process starts all over again in the SA node.

Your heart’s conduction system. When special cells called pacemaker cells generate electrical signals inside your heart, the heart muscle cells, called myocytes, contract as a group. Some conditions affect the heart's electrical system. Examples include:

Arrhythmia, or an irregular heart rhythm. Atrial fibrillation is one of the most common types of arrhythmia.
Conduction disorders, in which electrical signals either do not generate properly, or they do not travel properly through the heart, or both.

Source: NIH: National Heart, Lung, and Blood Institute

Additional Materials (5)

How the heart actually pumps blood - Edmond Hui

Video by TED-Ed/YouTube

Anatomy & physiology of the circulatory system (heart)

Video by Osmosis/YouTube

Coronary Artery Anatomy (3D Anatomy Tutorial)

Video by Geeky Medics/YouTube

Electrical conduction system of the heart

Heart Revealing Chamber and Valve : Your heart beats faster or slower depending on information from your brain, which monitors your body's need for blood. However, the basic rhythm of your heart is automatic; it does not depend on signals from your brain. Your heart cells can generate their own electrical signals, which trigger the contractions and cause the entire heart to pump in synchrony. A specialized bundle of muscle and nerve cells called the sinoatrial node (SA node) sits at the top of the right atrium and is the pacemaker of the heart. It generates the signal for the atria to contract and send blood to the ventricles. A similar node - the atrioventricular or AV node - sits at the atrioventricular septum near the bottom of the right atrium and relays the signal from the SA node to the ventricles to contract and pump blood out of the heart. An electrocardiogram (ECG) measures the electrical signals given off by these two nodes and their conduction through the heart. By looking at the frequency and the height of the peaks and valleys of these signals on an ECG, healthcare professionals get a very good idea of how well the electrical system of your heart is working.

Image by TheVisualMD

Human Heart Posterior View

Heart Posterior View : 3D visualization based on scanned human data of a posterior view of the heart. Visible are the right atrium, the upper chamber of the right side of the heart, and below the right atrium is the right ventricle. The left atrium and left ventricles are also visible. The large, yet short vein above the right atrium is the superior vena cava. The large vein that enters the right atrium at the lower right, back side of the heart is the inferior vena cava. The four veins visible that open into the left atrium of the heart are the pulmonary veins which carry oxygenated blood from the lungs to the left atrium of the heart.

Image by TheVisualMD

4:28

How the heart actually pumps blood - Edmond Hui

TED-Ed/YouTube

16:55

Anatomy & physiology of the circulatory system (heart)

Osmosis/YouTube

5:32

Coronary Artery Anatomy (3D Anatomy Tutorial)

Geeky Medics/YouTube

Electrical conduction system of the heart

TheVisualMD

Human Heart Posterior View

TheVisualMD

What Is Coronary Heart Disease?

Coronary Artery Disease

Image by National Heart Lung and Blood Insitute (NIH)

What Is Coronary Heart Disease?

Heart disease is a catch-all phrase for a variety of conditions that affect the heart’s structure and how it works. Coronary heart disease is a type of heart disease where the arteries of the heart cannot deliver enough oxygen-rich blood to the heart. It is the leading cause of death in the United States. About 18.2 million American adults have coronary artery disease, making it the most common type of heart disease in the United States, according to the Centers for Disease Control and Prevention.

Coronary artery disease affects the larger coronary arteries on the surface of the heart. Another type of heart disease, called coronary microvascular disease, affects the tiny arteries in the heart muscle. Coronary microvascular disease is more common in women.

The cause of coronary heart disease depends on the type. Coronary artery disease is often caused by cholesterol, a waxy substance that builds up inside the lining of the coronary arteries forming plaque. This buildup can partially or totally block blood flow in the large arteries of the heart. Coronary microvascular disease happens when the heart’s tiny blood vessels do not work normally. For most people, coronary heart disease is preventable with a heart-healthy lifestyle.

Symptoms of coronary heart disease may be different from person to person even if they have the same type of coronary heart disease. However, because many people have no symptoms, they do not know they have coronary heart disease until they have chest pain, blood flow to the heart is blocked causing a heart attack, or the heart suddenly stops working, also known as cardiac arrest.

If you have coronary heart disease, you may need heart-healthy lifestyle changes, medicines, surgery, or a combination of these approaches to your condition and prevent serious problems.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (2)

13:39

What is coronary artery disease? | Circulatory System and Disease | NCLEX-RN | Khan Academy

khanacademymedicine/YouTube

Know the Difference Fact Sheet

National Heart, Lung, and Blood Institute (NHLBI)

How Does It Affect Women?

Woman Having Heart Attack Caused by Ischemia

Image by TheVisualMD

Women and Heart Disease

Coronary heart disease is the leading cause of death for women. About 80% of women ages 40 to 60 have one or more risk factors for coronary heart disease. Having multiple risk factors significantly increases a woman’s chance of developing coronary heart disease.

Why does coronary heart disease affect women differently?

Hormone changes may affect a woman’s risk for coronary heart disease. Before menopause, the hormone estrogen provides women with some protection against heart disease. This may be because estrogen keeps the arteries flexible or because estrogen may have beneficial effects on blood lipids. As women age, though, their risk for coronary heart disease increases, and menopausal hormone therapy may further increase that risk. Women who experience early menopause, especially after a hysterectomy, are more likely to develop heart disease than women of the same age who have not yet experienced menopause.
The size and structure of the heart is different for women and men. A woman’s heart and blood vessels are smaller, and the muscular walls of women’s hearts are thinner.
Women are more likely to have heart disease in the smaller arteries of the heart, called coronary microvascular disease. This can make the disease harder to identify and causes delays in treatment.

What factors affect risk for women differently?

Women are more likely than men to have health conditions that raise their risk of coronary heart disease, such as:

Anemia, especially during pregnancy
Early menopause (before age 40)
Endometriosis
High blood pressure after age 65
History of problems during pregnancy, including gestational diabetes, preeclampsia, eclampsia (high blood pressure during pregnancy), and giving birth to a baby who is premature or smaller than average.
Hormonal birth control
Autoimmune andinflammatorydiseases
Lack of physical activity
Mental health issues, such as stress, marital stress, anxiety, depression, or low social support
Metabolic syndrome, a group of risk factors that raises your risk of heart disease and other health problems
Overweight and obesity

Some factors raise women’s risk of coronary heart disease more than they increase the risk for men, including:

Diabetes
Low levels of high-density lipoprotein (HDL) cholesterol
Mild to moderate high blood pressure
Smoking

How do symptoms differ for women?

Different activities bring on chest pain. In men, angina tends to worsen with physical activity and go away with rest. Women are more likely than men to have angina while they are resting. In women who have coronary microvascular disease, angina often happens during routine daily activities, such as shopping or cooking, rather than during exercise. Microvascular angina events may last longer and be more painful than other types of angina.
The location and type of pain may differ. Pain symptoms are different for each person. Women having angina or a heart attack often describe their chest pain as crushing, or they say it feels like pressure, squeezing, or tightness. Women also may also have pain in the chest or the neck and throat.
Mental stress is more likely to trigger angina pain in women than in men.
Other symptoms common for women include nausea, vomiting, shortness of breath, abdominal pain, sleep problems, tiredness, and lack of energy.

What do women need to know about diagnosis and treatment?

Tests and procedures for diagnosing coronary heart disease are similar for women and men, but women may experience delays in diagnosis or treatment. Know how to get the best information:

Ask about important diagnostic tests. Healthcare providers may be less likely to refer women for diagnostic tests for coronary heart disease. When women go to the hospital for heart-related symptoms, they may be more likely than men to experience delays receiving an initial EKG, less likely to receive care from a heart specialist during hospitalization, and less likely to receive some treatments and medicines. Younger women are more likely than men to be misdiagnosed and sent home from the emergency department after cardiac events caused by undiagnosed and untreated microvascular heart disease.
Ask about treatment options that are effective for men and women. Women may be less likely than men to receive aspirin, statins, and beta blockers for treating heart disease. Although women may be as likely as men to benefit from a pacemaker or a defibrillator, women are less likely to receive these treatments for complications of coronary heart disease. Women may be less likely to receive some heart treatments such as percutaneous coronary intervention or coronary artery bypass grafting, even though research shows that both men and women benefit from these procedures.
Know and share your risk factors. Healthcare providers may not recognize a woman’s risk of coronary heart disease. Commonly used risk scoring systems may not accurately predict risk in women.
Learn the symptoms and seek medical care right away. Immediate care may help prevent complications such as heart attack or sudden cardiac arrest.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (13)

4:19

Women and Heart Disease

Cleveland Clinic/YouTube

1:33

Heart Disease in Women - Causes, Symptoms and Treatment Options for Women

Rehealthify/YouTube

2:43

Heart Disease Prevention, Treatment & Screening: Emory Women's Heart Center

Emory Healthcare/YouTube

2:39

Women and Heart Disease Prevention: Eileen’s Story

NHLBI/YouTube

6:18

Women and Heart Disease Prevention: The Heart Truth® Ambassadors

NHLBI/YouTube

3:11

Heart Attacks in Women

Ohio State Wexner Medical Center/YouTube

1:30

Women and Heart Disease

Lee Health/YouTube

2:06

Heart Disease in Women - Mayo Clinic

Mayo Clinic/YouTube

1:41

Men & Women Differing Heart Symptoms

Lee Health/YouTube

0:51

Women's Heart Disease Risks - Mayo Clinic

Mayo Clinic/YouTube

3:19

Heart disease in women often undiagnosed, study finds

CBC News: The National/YouTube

2:08

Women and Heart Disease

Sharp HealthCare/YouTube

20:57

Gender Matters: Heart Disease in Women | Marcella Calfon Press, MD | UCLAMDChat

UCLA Health/YouTube

What You Need To Know

Cross section of an artery / Atheroma - Forming Plaques

Cross section of artery and blood flow 1) healthy artery 2) Atheroma and plaques build-up

Interactive by TheVisualMD

Coronary Artery Disease

What is coronary artery disease?

Coronary artery disease (CAD) is the most common type of heart disease in the United States. It is sometimes called coronary heart disease or ischemic heart disease.

For some people, the first sign of CAD is a heart attack. You and your health care team may be able to help reduce your risk for CAD.

Coronary artery disease is caused by plaque buildup in the wall of the arteries that supply blood to the heart (called coronary arteries). Plaque is made up of cholesterol deposits. Plaque buildup causes the inside of the arteries to narrow over time. This process is called atherosclerosis.

What causes coronary artery disease?

CAD is caused by plaque buildup in the walls of the arteries that supply blood to the heart (called coronary arteries) and other parts of the body.

Plaque is made up of deposits of cholesterol and other substances in the artery. Plaque buildup causes the inside of the arteries to narrow over time, which can partially or totally block the blood flow. This process is called atherosclerosis.

What are the symptoms of coronary artery disease?

Angina, or chest pain and discomfort, is the most common symptom of CAD. Angina can happen when too much plaque builds up inside arteries, causing them to narrow. Narrowed arteries can cause chest pain because they can block blood flow to your heart muscle and the rest of your body.

For many people, the first clue that they have CAD is a heart attack. Symptoms of heart attack include

Chest pain or discomfort (angina)
Weakness, light-headedness, nausea (feeling sick to your stomach), or a cold sweat
Pain or discomfort in the arms or shoulder
Shortness of breath

Over time, CAD can weaken the heart muscle. This may lead to heart failure, a serious condition where the heart can’t pump blood the way it should.

What are the risks for coronary artery disease?

Overweight, physical inactivity, unhealthy eating, and smoking tobacco are risk factors for CAD. A family history of heart disease also increases your risk for CAD, especially a family history of having heart disease at an early age (50 or younger).

To find out your risk for CAD, your health care team may measure your blood pressure, blood cholesterol, and blood sugar levels.

How is coronary artery disease diagnosed?

If you’re at high risk for heart disease or already have symptoms, your doctor can use several tests to diagnose CAD.

Test	What it Does
ECG or EKG (electrocardiogram)	Measures the electrical activity, rate, and regularity of your heartbeat.
Echocardiogram	Uses ultrasound (special sound wave) to create a picture of the heart.
Exercise stress test	Measures your heart rate while you walk on a treadmill. This helps to determine how well your heart is working when it has to pump more blood.
Chest X-ray	Uses x-rays to create a picture of the heart, lungs, and other organs in the chest.
Cardiac catheterization	Checks the inside of your arteries for blockage by inserting a thin, flexible tube through an artery in the groin, arm, or neck to reach the heart. Health care professionals can measure blood pressure within the heart and the strength of blood flow through the heart’s chambers as well as collect blood samples from the heart or inject dye into the arteries of the heart (coronary arteries).
Coronary angiogram	Monitors blockage and flow of blood through the coronary arteries. Uses X-rays to detect dye injected via cardiac catheterization.
Coronary artery calcium scan	A computed tomography (CT) scan that looks in the coronary arteries for calcium buildup and plaque.

What is cardiac rehabilitation and recovery?

Cardiac rehabilitation (rehab) is an important program for anyone recovering from a heart attack, heart failure, or other heart problem that required surgery or medical care. In these people, cardiac rehab can help improve quality of life and can help prevent another cardiac event. Cardiac rehab is a supervised program that includes

Physical activity
Education about healthy living, including healthy eating, taking medicine as prescribed, and ways to help you quit smoking
Counseling to find ways to relieve stress and improve mental health

A team of people may help you through cardiac rehab, including your health care team, exercise and nutrition specialists, physical therapists, and counselors or mental health professionals.

How can I be healthier if I have coronary artery disease?

If you have CAD, your health care team may suggest the following steps to help lower your risk for heart attack or worsening heart disease:

Lifestyle changes, such as eating a healthier (lower sodium, lower fat) diet, increasing physical activity, reaching a healthy weight, and quitting smoking
Medicines to treat risk factors for CAD, such as high cholesterol, high blood pressure, or an irregular heartbeat
Surgical procedures to help restore blood flow to the heart

Source: Centers for Disease Control and Prevention (CDC)

Additional Materials (2)

3:08

CORONARY ARTERY DISEASE EXPLAINED IN 3 MINUTES | CARDIAC CIRCULATION | CAUSES | SYMPTOMS | CAD

5MinuteSchool/YouTube

Coronary artery disease is caused by plaque buildup in the arteries that block blood supply to the heart.

CDC

Risk Factors

Image of a woman smoking with visible cardiovascular system, skeleton, liver and kidneys

Image by TheVisualMD

What Raises Your Risk of Heart Disease?

Your risk of coronary heart disease goes up based on the number of risk factors you have and how serious they are. Some risk factors — such as high blood pressure and high blood cholesterol — can be changed through heart-healthy lifestyle changes. Other risk factors, such as your sex, older age, family history, and race and ethnicity, cannot be changed.

Age

Genetic or lifestyle factors cause plaque to build up in your arteries as you age. Also, changes in the small blood vessels of the heart as you age raise the risk for coronary microvascular disease.

In men, the risk for coronary heart disease starts to increase around age 45. Before menopause, women have a lower risk of coronary heart disease than men. After around age 55, the risk for women goes up. This is likely because women have less estrogen (a female hormone) after menopause.

Environment and occupation

Air pollution in the environment can put you at higher risk of coronary heart disease. The increase in risk may be higher in older adults, women, and people who have diabetes or obesity. Air pollution may cause or worsen other conditions that are known to increase your risk of coronary heart disease, such as atherosclerosis and high blood pressure.

Your work can raise your risk if you:

Are exposed to toxins, radiation, or other hazards
Have a lot of stress at work
Sit for long periods
Work more than 55 hours a week, or work long, irregular, or night shifts that affect your sleep

Family history and genetics

A family history of early heart disease is a risk factor for coronary heart disease. This is especially true if your father or brother was diagnosed before age 55, or if your mother or sister was diagnosed before age 65. Research shows that some gene are linked with a higher risk for coronary heart disease.

Lifestyle habits

Over time, unhealthy lifestyle habits increase your risk of coronary heart disease because they can lead to plaque buildup in the heart’s blood vessels.

Being physically inactive can worsen other heart disease risk factors, such as high blood cholesterol and triglycerides levels, high blood pressure, diabetes and prediabetesexternal link, and overweight and obesity.
Not getting enough good quality sleep, including waking up often throughout the night, may raise your risk of coronary heart disease. While you sleep, your blood pressure and heart rate fall. Your heart does not work as hard as it does when you are awake. As you begin to wake up, your blood pressure and heart rate increase to the same levels as when you are awake and relaxed. Waking up suddenly can cause a sharp increase in blood pressure and heart rate, which has been linked to chest pain related to the heart called angina and heart attacks. Learn more about How Sleep Works.
Smoking or long-term exposure to secondhand smoke can damage the blood vessels.
Stress can cause your arteries to tighten. Stress may also indirectly raise your risk of coronary heart disease if it makes you more likely to smoke or overeat foods high in fat and added sugars.
Unhealthy eating patterns include consuming high amounts of saturated fats and refined carbohydrates (such as white bread, pasta, and white rice) can lead to overweight and obesity, high blood cholesterol, atherosclerosis, and plaque buildup in the heart’s arteries.

Learn about steps you can take to improve your heart health in Heart-Healthy Living.

Other medical conditions

Other medical conditions affecting your heart and blood vessels can raise your risk of developing coronary heart disease including:

Atherosclerosis
Congenital coronary artery defects (heart problems you are born with)
High blood LDL cholesterol (sometimes called “bad cholesterol”)
High blood pressure
High blood triglycerides

There are also several medical conditions that are not directly related to your heart and blood vessels that may increase your risk for coronary heart disease, such as:

autoimmune and inflammatory diseases, such as Crohn’s disease, ulcerative colitis, psoriasis, lichen planus, pemphigus, histiocytosis, lupus erythematosus, and rheumatoid arthritis
Chronic kidney disease
Diabetes
HIV/AIDS, especially among older adults. Part of the risk might be due to side effects of HIV treatments.
Mental health conditions, including anxiety, depression, and post-traumatic stress disorder (PTSD)
Metabolic syndrome
Overweight and obesity
Sleep disorders, such as sleep apnea or sleep deprivation and deficiency

Race or ethnicity

Coronary heart disease is the leading cause of death for people of most racial and ethnic groups in the United States, including African Americans and whites.

For Hispanics, Asian Americans or Pacific Islanders, and American Indians or Alaska Natives, heart disease is second only to cancer. People of South Asian ancestry are at higher risk of developing coronary heart disease and serious complications than other Asian Americans.

Sex

Coronary heart disease affects men and women. Obstructive coronary artery disease is more common in men. However, non-obstructive coronary artery disease is more common in women. Since the non-obstructive type is harder to diagnose, women may not be diagnosed and treated as quickly as men.

If you are a woman having chest discomfort or shortness of breath during physical activity, ask your doctor about tests to check for non-obstructive coronary artery disease or coronary microvascular disease.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (4)

12:34

Risk factors for coronary artery disease | Circulatory System and Disease | NCLEX-RN | Khan Academy

khanacademymedicine/YouTube

4:22

Risk Factors for Coronary Heart Disease

NoteworthyExperts/YouTube

1:21

Coronary heart disease, clogged arteries and atherosclerosis

British Heart Foundation/YouTube

Coronary Artery Disease

TheVisualMD

Causes

Vessel with Plaque Build Up 1

1

2

3

Vessel with Plaque Build Up

Interactive by TheVisualMD

What Causes Coronary Heart Disease?

Coronary heart disease may have more than one cause, including plaque buildup or problems that affect how the heart’s blood vessels work.

Plaque buildup

Plaque buildup in the arteries is called atherosclerosis. When this buildup happens in the heart's arteries over many years, the arteries become narrower and harden, reducing oxygen-rich blood flow to the heart. This is the main cause of obstructive coronary artery disease.

Normal versus a blocked artery. The large image on the left shows the heart and marks the location of the coronary arteries. On the right, the top image is an enlarged drawing of a normal coronary artery with typical blood flow. Below it is an enlarged drawing of a blocked coronary artery narrowed by plaque buildup on the walls of the vessel.

Small amounts of plaque can also develop in the small blood vessels in the heart, causing coronary microvascular disease.

Problems with how the blood vessels work

Problems with how the heart’s blood vessels work can cause of coronary heart disease. For example, the blood vessels may not respond to signals that the heart needs more oxygen-rich blood. Normally, the blood vessels widen to allow more blood flow when a person is physically active or under stress. If you have coronary heart disease, the size of these blood vessels may not change, or the blood vessels may even narrow.

The cause of these problems is not fully clear. But it may involve damage or injury to the walls of the arteries or tiny blood vessels from chronic inflammation, high blood pressure, or diabetes, all of which can cause blood vessels to narrow over time.

Damage to the inner walls of the larger coronary arteries can cause them to spasm (suddenly tighten). This is called vasospasm. The spasm causes the arteries to narrow temporarily and blocks blood flow to the heart.

Coronary microvascular disease in small arteries and obstructive coronary artery disease in large arteries. Figure A shows the small coronary artery network, which includes a normal artery and an artery with coronary microvascular disease. Figure B shows a large coronary artery with plaque buildup.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (8)

Coronary Artery Disease: Causes

Video by AFMSCEMMTube/YouTube

This browser does not support the video element.

Cholesterol & Atherosclerosis

While the term technically refers to any disease that affects the cardiovascular system (as used in MeSH), it is usually used to refer to those related to atherosclerosis (arterial disease). Everyone talks about high cholesterol and how bad it is for you. But why is it bad for you? Where does it come from? What's the difference between "good" and "bad" cholesterol? Take a journey inside the body and explore its vessels, as world-renowned doctors explain what cholesterol is all about and how it contributes to hardening of the arteries, a dangerous condition also known as atherosclerosis.

Video by TheVisualMD

How coronary heart disease (atherosclerosis) develops

Video by Bupa Health UK/YouTube

Aging Vessel

Over the years, if we don't take care of our bodies, our blood vessels can start to lose their resiliency and plaque can start to build up in our arteries. Plaque is composed of cholesterol, inflammatory (immune) cells, calcium, and other substances that flow through our bloodstreams. Plaque buildup occurs if we eat high-fat diets, don't get enough exercise, are overweight, smoke, or have other unhealthy habits.

Image by TheVisualMD

Cholesterol, Atherosclerotic Heart Disease

Atherosclerosis is a disease in which fatty deposits called plaque build up inside arteries; one of the components of plaque is LDL or \"bad\" cholesterol. Over time, plaque narrows the arteries, which limits the flow of oxygen-rich blood to the body; plaque in coronary arteries restricts blood supply to the heart. Plaque also makes the arterial walls stiff and less elastic, which is why a common term for artherosclerosis is \"hardening\" of the arteries. To try to clean up the mess, the endothelial cells that make up the inner lining send out chemical signals that summon inflammatory cells. These cells invade the area and engulf the fatty molecules, leaving behind the fatty streaks. If the levels of cholesterol don't drop, the buildup continues. The fats start to accumulate faster than the cleanup process can remove them and develop into noticeable deposits known as plaque. As the plaques grow, so do the problems. The bulging plaque reduces the diameter of the arteries, which decreases blood flow and increases blood pressure. As a defense, the arteries start shoring up, making more support cells to cope with the rising blood pressure. The arteries become less flexible; hence the description of the condition as hardening of the arteries.

Image by TheVisualMD

Atheroma - Plaque in Coronary Artery

Plaque in Coronary Artery : Plaque buildup prevents blood from reaching heart tissue, often resulting in a heart attack.

Image by TheVisualMD

Artery with Plaque Build Up

Three-dimensional visualization reconstructed from scanned human data. Anterior view of artery with plaque build-up. Plaque build-up is a result of atherosclerosis, a hardening and thickening of the artery walls due to contributing factors such as a high-fat, high-cholesterol diet, age, smoking, and genetics. Atherosclerosis often affects the coronary arteries and can result in clot formation and severe artery blockage that may lead to heart attack or stroke.

Image by TheVisualMD

HDL and LDL Subfractionation: Vessel Walls / Atheroma - Forming Plaques

Cross section of an artery forming plaques

Atherosclerosis is a disease in which fatty deposits called plaque build up inside your blood vessel walls. Over time, plaque narrows your blood vessels, which limits the flow of oxygen-rich blood to your body; plaque in coronary arteries restricts blood supply to the heart.

Interactive by TheVisualMD

1:41

Coronary Artery Disease: Causes

AFMSCEMMTube/YouTube

3:08

Cholesterol & Atherosclerosis

TheVisualMD

1:37

How coronary heart disease (atherosclerosis) develops

Bupa Health UK/YouTube

Aging Vessel

TheVisualMD

Cholesterol, Atherosclerotic Heart Disease

TheVisualMD

Atheroma - Plaque in Coronary Artery

TheVisualMD

Artery with Plaque Build Up

TheVisualMD

Cross section of an artery forming plaques

TheVisualMD

Symptoms

Angina in Older Woman

Image by TheVisualMD

What Are the Signs and Symptoms of Coronary Heart Disease?

Sometimes coronary heart disease is “silent,” meaning you may not have any symptoms until you experience a heart attack or other complication. This can make coronary heart disease hard to diagnose before a problem occurs. And it is also why preventing heart disease is so important.

Symptoms of a heart attack

A sudden heart problem, such as a heart attack, may cause the following symptoms:

Angina, or chest pain caused by the heart can feel like pressure, squeezing, indigestion, burning, or tightness, and is sometimes related to physical activity. The pain or discomfort usually starts behind the breastbone, but it can also occur in the arms, shoulders, jaw, throat, or back.
Cold sweats
Dizziness
Light-headedness
Nausea or a feeling of indigestion
Neck pain
Shortness of breath, especially with activity
Sleep disturbances
Weakness

Women are less likely than men to experience chest pain with a heart attack. Instead, they are more likely to experience:

Dizziness
Extreme tiredness
Nausea
Pressure or tightness in the chest
Stomach pain

You may also have some symptoms of a sudden heart problem, such as chest pain, shortness of breath, or neck pain, that go away with rest and come back with activity. These symptoms may get worse as the buildup of plaque continues to narrow the coronary arteries. Chest pain or discomfort that does not go away or happens more often or while you are resting might be a sign of a heart attack.

If you do not know whether your chest pain is angina or a heart attack, call 9-1-1 right away. All chest pain should be checked by a healthcare provider.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (11)

Learn What a Heart Attack Feels Like

Document by National Heart Lung and Blood Institute / NIH

What is angina? Symptoms & Treatment of Angina Pectoris

Video by usmlesteps123/YouTube

Angina: The Red Flag

Video by Lee Health/YouTube

What is Angina? (Chest Pain) Can you die from Angina?

Video by healthery/YouTube

Common Warning Symptoms of Heart Attack

Video by NHLBI/YouTube

Heart Burn or Heart Attack?

Video by Lee Health/YouTube

Heart Attack Symptoms and Prevention (Q&A)

Video by Howard County General Hospital/YouTube

Symptoms of Heart Attack: Types of Heart Attacks

Video by Cleveland Clinic/YouTube

Heart Attack signs

Know the signs and symptoms of a heart attack and call 9-1-1 to seek immediate medical attention if you experience them. Fewer women than men survive their first heart attack. Getting help quickly can help you survive and make a full recovery, but every 30 minutes you wait to get help can take one year off your life.

Image by U.S. Department of Veterans Affairs

Heart Attack Symptoms

Symptoms of a heart attack are often more severe and longer-lasting than those of angina. Heart attacks can occur at any time or place, when you're resting or when you're in motion. Heart attacks can strike without warning, but there may be signs and symptoms, like angina, in advance.

Image by TheVisualMD

The illustration shows the major signs and symptoms of coronary heart disease

The illustration shows the major signs and symptoms of coronary heart disease.

Image by National Heart Lung and Blood Institute (NIH)

Learn What a Heart Attack Feels Like

National Heart Lung and Blood Institute / NIH

5:54

What is angina? Symptoms & Treatment of Angina Pectoris

usmlesteps123/YouTube

1:53

Angina: The Red Flag

Lee Health/YouTube

3:10

What is Angina? (Chest Pain) Can you die from Angina?

healthery/YouTube

2:38

Common Warning Symptoms of Heart Attack

NHLBI/YouTube

1:29

Heart Burn or Heart Attack?

Lee Health/YouTube

6:03

Heart Attack Symptoms and Prevention (Q&A)

Howard County General Hospital/YouTube

1:45

Symptoms of Heart Attack: Types of Heart Attacks

Cleveland Clinic/YouTube

Heart Attack signs

U.S. Department of Veterans Affairs

Heart Attack Symptoms

TheVisualMD

The illustration shows the major signs and symptoms of coronary heart disease

National Heart Lung and Blood Institute (NIH)

Diagnosis

Heart angiography of Coronary Artery Blockage

Image by TheVisualMD

How Is Coronary Heart Disease Diagnosed?

Your doctor will diagnose coronary heart disease based on your symptoms, your medical and family history, your risk factors, and the results from tests and procedures.

Screening for coronary heart disease

Heart disease can be a silent condition, meaning you may not have any symptoms until you have a serious health problem, such as a heart attack. Having regular check-ups is important to help your doctor know your risk and recommend healthy lifestyle changes to prevent heart disease.

You should start getting screening tests and risk assessments for coronary heart disease around age 20 if you do not have any risk factors for it. Children may need screening if they have risk factors, such as obesity, low levels of physical activity, or a family history of heart problems.

Your doctor may recommend preventive treatments such as heart-healthy lifestyle changes to help you lower your risk of coronary heart disease.

To screen for coronary heart disease, your doctor will:

Assess risk factors to help evaluate your risk of developing coronary heart disease
Check blood pressure readings to see whether you have high blood pressure
Calculate your body mass index and waist circumference to see whether you have an unhealthy weight
Order blood tests to see whether you have high blood cholesterol, high blood triglycerides, or diabetes

Screening usually happens in a provider's office, but sometimes screenings are done at health fairs, drugstores, or other places. Blood samples might be collected at the provider’s office, a hospital, or a laboratory.

Ask whether you need to fast (not eat or drink anything besides water) before the blood tests.

Diagnostic tests and procedures

If you have symptoms of coronary heart disease, your healthcare provider may order tests to see if you have coronary heart disease. Your provider will also likely order blood tests to check the levels of cholesterol, triglycerides, sugar, lipoproteins, or proteins that are a sign of inflammation.

An electrocardiogram (EKG or ECG) determines whether the heart’s rhythm is steady or irregular. An EKG also records the strength and timing of electrical signals as they pass through the heart.
A coronary calcium scan measures the amount of calcium in the walls of your coronary arteries. This test is a type of cardiac CT scan. Coronary calcium scans can also help assess coronary heart disease risk for people who smoke or for people who do not have heart symptoms.
Stress tests check how your heart works during physical stress. During stress testing, you walk or run on a treadmill or pedal a stationary bike to make your heart work hard and beat fast. If you have a medical problem that prevents you from exercising, your doctor may give you medicine to make your heart work hard, as it would during exercise. To detect reduced blood flow to your heart muscle, while you exercise you will be monitored by ECG and possibly echocardiogram or CT scan.
Cardiac MRI (magnetic resonance imaging) detects tissue damage or problems with blood flow in the heart or coronary arteries. It can help your doctor diagnose coronary microvascular disease as well as nonobstructive or obstructive coronary artery disease. Cardiac MRI can also help explain results from other imaging tests.
Cardiac positron emission tomography (PET) scanning assesses blood flow through the small coronary blood vessels and into the heart tissues. This is a type of nuclear heart scan that can diagnose coronary microvascular disease.
Coronary angiography shows the insides of your coronary arteries. To get the dye into your coronary arteries, your doctor will use a procedure called cardiac catheterization. This procedure is often used if other tests show that you are likely to have coronary artery disease. To diagnose coronary microvascular disease, your doctor will use coronary angiography with guidewire technology to help navigate to the smaller spaces.
Coronary computed tomographic angiography is a non-invasive imaging test using CT scanning to show the insides of your coronary arteries rather than an invasive cardiac catheterization.

Risk calculators

Your provider may use a risk calculator to estimate your risk of having a heart attack, having a stroke, or dying from heart or blood vessel disease in the next 10 years or throughout your lifetime.

For example, the Atherosclerotic Cardiovascular Disease (ASCVD) Estimator considers your cholesterol levels, age, sex, race, and blood pressure. It also factors in whether you smoke or take medicines to manage your high blood pressure or cholesterol.

Ask about your risk during your annual check-up. Knowing your risk will help you and your provider decide on healthy lifestyle changes and possibly medicines to lower your risk.

Risk assessments should be repeated every 4 to 6 years in adults 20 to 79 years of age who do not have heart or blood vessel disease.

No single risk calculator is appropriate for all people. Calculators can give you and your doctor a good idea about your risk, but your provider may consider other factors to estimate your risk more accurately.

Commonly used risk calculators might not accurately estimate risk in certain situations.

Risk calculators may not account for complications during pregnancy or had early menopause.
People with metabolic syndrome or an inflammatory or autoimmune condition also need to be aware that common risk calculators may not factor in their condition.
Family history of heart or blood vessel disease at a young age may also cause an inaccurate estimate.
People who use statins to manage cholesterol levels will also get an inaccurate estimate of risk from these calculators.

In these cases, your healthcare provider may suggest other tests for coronary heart disease even if the ASCVD Risk Estimator or other calculator says you are not at high risk.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (9)

10:45

Heart attack (myocardial infarct) diagnosis | NCLEX-RN | Khan Academy

khanacademymedicine/YouTube

8:53

Your Health: Diagnosing Chest Pain

UMMCVideos/YouTube

52:29

Cardiovascular | EKG Basics

Ninja Nerd/YouTube

20:37

Cardiovascular | EKG's

Ninja Nerd/YouTube

8:36

Electrocardiography (ECG/EKG) - basics

Osmosis/YouTube

1:05

Cardiac MRI

MRI Michigan/YouTube

9:32

Cardiac MRI: What you should know if your doctor orders a cardiac MRI

Cleveland Clinic/YouTube

3:55

Having a Cardiac MRI scan

Birmingham Women's and Children's NHS Trust/YouTube

5:02

Coronary angiography - image intensifier basics and nomenclature

Medmastery/YouTube

Heart Disease Risk

Heart Disease Risk Assessment

Also called: Cardiovascular Disease Assessment, CVD Risk Factors Assessment, Heart Disease Risk Calculator, ASCVD Risk Calculator

A heart disease risk assessment is a type of screening tool that calculates your risk for developing heart disease in the future. The results can show if you need to take steps to prevent or reduce your chances of getting heart disease.

Heart Disease Risk Assessment

Also called: Cardiovascular Disease Assessment, CVD Risk Factors Assessment, Heart Disease Risk Calculator, ASCVD Risk Calculator

A heart disease risk assessment is a type of screening tool that calculates your risk for developing heart disease in the future. The results can show if you need to take steps to prevent or reduce your chances of getting heart disease.

{"label":"ASCVD risk score reference range","scale":"lin","step":0.1,"items":[{"flag":"normal","label":{"short":"L","long":"Low","orientation":"horizontal"},"values":{"min":0,"max":5},"text":"A 0 to 4.9 percent risk is considered low. Eating a healthy diet and exercising will help keep your risk low. Medication is not recommended unless your LDL, or \u201cbad\u201d cholesterol, is greater than or equal to 190.","conditions":[]},{"flag":"borderline","label":{"short":"B","long":"Borderline","orientation":"horizontal"},"values":{"min":5,"max":7.5},"text":"A 5 to 7.4 percent risk is considered borderline. Use of a statin medication may be recommended if you have certain conditions, or \u201crisk enhancers.\u201d These conditions may increase your risk of a heart disease or stroke. Talk with your primary care provider to see if you have any risk enhancers.","conditions":[]},{"flag":"abnormal","label":{"short":"I","long":"Intermediate","orientation":"horizontal"},"values":{"min":7.5,"max":20},"text":"A 7.5 to 20 percent risk is considered intermediate. It is recommended that you start with moderate-intensity statin therapy","conditions":["Cardiovascular disease"]},{"flag":"abnormal","label":{"short":"H","long":"High","orientation":"horizontal"},"values":{"min":20,"max":100},"text":"A greater than 20 percent risk is considered high. It is recommended that you start with high-intensity statin therapy.","conditions":["Cardiovascular disease"]}],"units":[{"printSymbol":"%","code":"%","name":"percent"}],"hideunits":false,"value":2.5}[{"normal":0},{"borderline":0},{"abnormal":0},{"abnormal":1}]
Use the slider below to see how your results affect your health.
%
5
7.5
20
Your result is Low.
A 0 to 4.9 percent risk is considered low. Eating a healthy diet and exercising will help keep your risk low. Medication is not recommended unless your LDL, or “bad” cholesterol, is greater than or equal to 190.
Related conditions
Heart disease is the leading cause of death in the United States. A heart disease risk assessment, or cardiovascular disease (CVD) risk assessment, is a screening tool that measures your risk of heart disease or CVD. Heart disease and CVD are related, but they are not the same thing:
- CVD is the term for all diseases that affect the heart and blood vessels.
- Heart disease is a type of CVD. It is the term for a variety of conditions that affect the heart's structure and function, including coronary artery disease (the most common type), heart attack, heat failure, and heart valve diseases.
There are various screening tools that can check your heart disease risk, but they are meant to be used before you have a heart problem. You can complete a heart risk assessment online or at your health care provider's office. The risk assessment includes questions about certain risk factors, including your age, family history, and lifestyle habits such as diet and exercise. It then calculates your risk of developing heart disease in the future. Even if you feel healthy now, the assessment can show if you need to take steps to prevent or reduce your chances of developing heart disease later.
Other names: cardiovascular disease assessment, CVD risk factors assessment, heart disease risk calculator, ASCVD risk calculator
There are different types of heart disease risk assessments. These screening tools each include general questions about your health and possible risk factors for heart disease. Some common heart disease risk assessments include:
- ASCVD Risk Calculator. This tool helps predict your 10-year or lifetime risk of atherosclerotic cardiovascular disease (ASCVD). ASCVD refers to conditions caused by atherosclerosis, which develops when plaque (fatty deposits) build up inside your arteries. The buildup can block blood flow and may lead to heart attack or stroke.
- ACC/AHA Cardiovascular Risk Calculator. This is a shorter version of the ASCVD Risk Calculator. Both make suggestions to improve your risk score.
- Pooled Cohort Equation (PCE). This is an updated version of the ASCVD Risk Calculator, which estimates the 10-year risk of heart attack and/or stroke for people ages 30 to 79.
- Predicting Risk of Cardiovascular Disease Events (PREVENT) Calculator. This new tool considers other health conditions to estimate the risk of heart attack, stroke, and heart failure for people ages 30 to 79. It is used to estimate your 10- and 30-year risk.
- Reynolds Risk Score. This test was originally developed for women, but now they have a test that can be used for men. It estimates the 10-year risk of having a heart attack, stroke, or death related to heart disease for people ages 45 to 80. It is only used if you don't have diabetes.
You can choose and complete a test online, or your health care provider may tell you which one might be best for you and/or review the questions with you. Your assessment may include questions about some or all of the following:
- Age
- Gender
- Height and weight
- Blood pressure
- Cholesterol levels
- Whether you smoke or have smoked in the past
- Whether you have diabetes
- Activity level
- Diet
- Family history of heart conditions
Heart disease risk assessment results are calculated based on data from clinical studies on heart disease. Your answers will be compared with patient data from these studies. Your results will be given as a percentage.
- A lower percentage means you have less risk of developing heart disease.
- A higher percentage means you have a greater risk. If your percentage is high, your provider may recommend steps to lower your risk.
Some risk factors, such as age and family history, can't be controlled. But you can take steps to lower your risk for some factors, for example by:
- Eating a healthy diet
- Getting regular physical activity
- Limiting alcohol use
- Quitting smoking.
- Managing stress and health conditions such as diabetes, high blood pressure, or high cholesterol
These steps can benefit all adults.
If you are at a high risk of heart disease, your provider may also recommend medicines. These medicines may be used to treat health conditions which raise your risk or to help prevent certain heart diseases: They may include:
- Medicines to lower cholesterol, such as statins.
- Blood pressure medicines, also called antihypertensives
- Blood thinners, which may help prevent heart attacks and strokes. This may include taking a daily aspirin. But aspirin therapy has some risks and is only recommended for people with certain risk factors for heart disease. Talk to your provider about the risks and benefits before you start taking a daily aspirin.
If you have questions about your results, talk to your provider.
Depending on the results of your assessment, your provider may order additional tests including:
- Cholesterol levels, a test that measures cholesterol levels in your blood
- Electrocardiogram, a test that measures electrical signals in your heart
- Stress test, a test that measures how well your heart handles physical activity
1. Heart Disease Risk Assessment: MedlinePlus Medical Test [accessed on Oct 13, 2024]

Hs-CRP Test

Hs-CRP Test

Also called: High-sensitivity c-reactive protein, High-sensitivity CRP, Ultra-sensitive CRP, Cardiac CRP

The high-sensitivity c-reactive protein (hs-CRP) test is used to measure your heart disease risk even if you seem healthy. It can find much smaller changes in CRP levels than the regular CRP test.

Hs-CRP Test

Also called: High-sensitivity c-reactive protein, High-sensitivity CRP, Ultra-sensitive CRP, Cardiac CRP

The high-sensitivity c-reactive protein (hs-CRP) test is used to measure your heart disease risk even if you seem healthy. It can find much smaller changes in CRP levels than the regular CRP test.

{"label":"hs-CRP reference range","scale":"lin","step":0.1,"items":[{"flag":"normal","label":{"short":"L","long":"Low","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"You have a low risk of developing heart disease.","conditions":[]},{"flag":"borderline","label":{"short":"I","long":"Intermediate","orientation":"horizontal"},"values":{"min":1,"max":3},"text":"You have an average risk of developing heart disease.","conditions":["Heart disease","Injury","Inflammatory process","Coronary artery disease","Cardiovascular disease"]},{"flag":"abnormal","label":{"short":"H","long":"High","orientation":"horizontal"},"values":{"min":3,"max":10},"text":"Your risk of developing heart disease is high.","conditions":["Heart disease","Injury","Inflammatory process","Coronary artery disease","Cardiovascular disease"]},{"flag":"abnormal","label":{"short":"VH","long":"Very High","orientation":"horizontal"},"values":{"min":10,"max":15},"text":"This may indicate an acute inflammatory process. The test should be repeated in two weeks.","conditions":["Heart disease","Acute injury","Acute inflammatory process",""]}],"units":[{"printSymbol":"mg\/L","code":"mg\/L","name":"milligram per liter"}],"hideunits":false,"value":0.5}[{"normal":0},{"borderline":0},{"abnormal":0},{"abnormal":1}]
Use the slider below to see how your results affect your health.
mg/L
1
3
10
Your result is Low.
You have a low risk of developing heart disease.
Related conditions
Your doctor may want to order this test if you have a suspected heart disease, or if you have risk factors for cardiovascular disease. This includes:
- Unbalanced diet
- Physical inactivity (sedentarism)
- Being overweight or obese
- More than 50 years of age in women
- More than 45 years of age in men
- Cigarette smoking
- Diabetes
- High blood pressure
- Family history of early heart disease
- Previously diagnosed heart disease
Your doctor may also want to order this test in case that your blood analysis tests have shown increased levels of cholesterol, triglycerides, and LDL cholesterol, or decreased levels of HDL cholesterol.
The levels of hs-CRP test are related to the risk of heart disease, its results indicate:
- Low risk: 1.00 mg/L
- Average risk: 1.00 - 3.00 mg/L
- High risk: >3.00 mg/L
The levels of hs-CRP rise rapidly in the case of acute inflammation and decrease as the inflammation subsides.
1. MedicineNet. C-Reactive Protein CRP Test, Ranges, Symptoms, and Treatment. Melissa Conrad Stöppler. [accessed on Aug 14, 2018]
2. Kiran Musunuru et al. The use of high-sensitive protein in clinical practice. Published online 2008 Aug 19. [accessed on Aug 14, 2018]
3. Cleveland Clinic. Blood Tests to Determine Risk of Coronary Artery Disease: C-Reactive Protein. Reviewed by Dr. Leslie Cho. [accessed on Aug 14, 2018]
4. Mayo Clinic Mayo Medical Laboratories. Test ID: HSCRP CReactive Protein, High Sensitivity, Serum. [accessed on Aug 14, 2018]
5. LabTests Online. High-sensitivity C-Reactive Protein (hs-CRP). [accessed on Aug 14, 2018]
6. Pritikin Longevity Centre. What is high-sensitivity C-reactive protein? Can you lower it with food? [accessed on Aug 14, 2018]
7. Doc’s opinion. Blog About Heart Disease, Nutrition, Healthy Lifestyle and Prevention of Disease. Hs-CRP. [accessed on Aug 14, 2018]
8. 120766: C-Reactive Protein (CRP), High Sensitivity ... | LabCorp [accessed on Oct 11, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (17)

CRP And Homocysteine Inflammation Markers, How Do They Relate To Coronary Artery Disease? - Dr. Lyel

Video by EmpowHER/YouTube

Chronic Inflammation: The Root Cause of a Multitude of Diseases

Video by Criticalbench/YouTube

Inflammation and Type 2 Diabetes

Video by WEHImovies/YouTube

Part I - Inflammation

Video by Armando Hasudungan/YouTube

Part II - Inflammation

Video by Armando Hasudungan/YouTube

This browser does not support the video element.

What Is Inflammation?

Inflammation is the body's response to damage. It takes many forms. Chronic inflammation is common in overweight and obese people, because their fat cells manufacture damaging substances that trigger a reaction from the immune system's white blood cells. Keeping track of a key biomarker for inflammation, C-reactive Protein or CRP, helps doctors determine whether an overweight patient is at risk for such conditions as heart disease, dementia, diabetes, cancers, and more.

Video by TheVisualMD

C Reactive Protein: Liver and Heart

C-Reactive protein is synthesized by the liver in response to either signals from fat cells (adipocytes) or when there is inflammation throughout the body.

Image by TheVisualMD

C Reactive Protein: Fat cells

Researchers have found that fat cells trigger the production of C-reactive protein (CRP), which is why individuals who are overweight or obese tend to have chronically higher levels of CRP. High levels of CRP are sometimes treated with aspirin or statins.

Image by TheVisualMD

C-Reactive Protein (CRP) Molecule

C-reactive protein (CRP) is a substance made by the liver; infection and inflammation can trigger the release of CRP within hours. Elevated CRP levels are also seen after a heart attack or surgery. Levels can jump 1000-fold in response to acute inflammation, often rising before the appearance of pain, fever or other clinical symptoms. The high sensitivity version of the test (hs-CRP) measures the same molecule, but in very small amounts, and is used to assess the risk of heart disease in otherwise healthy people. The C-reactive protein (CRP) test is a general test for inflammation in the body; it can indicate that inflammation is present, but cannot determine the location or cause. The test is sometimes used to monitor flare-ups of inflammatory diseases such as rheumatoid arthritis or lupus. A version of the test called high-sensitivity C-reactive protein (hs-CRP) is used to evaluate a person's risk for heart disease.

Image by TheVisualMD

C-reactive Protein, Atherosclerosis and Heart Disease

C-reactive protein (CRP) is a substance made by the liver that is released into the bloodstream by inflammation. CRP levels also seem to be associated with an increased risk of heart disease and atherosclerosis, in which fatty deposits called plaque build up inside the arteries. For this reason, a high sensitivity C-reactive protein test (hs-CRP) is increasingly ordered along with other tests as part of a cardiovascular risk profile (other components of the profile include cholesterol, triglycerides, blood pressure, glucose levels, lifestyle and family history).

Image by TheVisualMD

Phagocytosis - C-reactive protein (CRP) is a substance made by the liver that is released into the bloodstream by inflammation and infection as part of the body's immune response.

C-reactive protein (CRP) is a substance made by the liver that is released into the bloodstream by inflammation and infection as part of the body's immune response. White blood cells are also mobilized by the immune system and CRP is believed to enhance the activity of the white blood cells called macrophages. Each type of white blood cell has its own specialized immune functions; macrophages, for example, basically engulf and \"eat\" foreign invaders such as bacteria, viruses and fungi. Macrophages in the spleen and the liver weed out old and defective red blood cells and break them into recyclables (iron, heme, and some globin) and wastes (such as bilirubin). The bilirubin is then used by the liver to produce bile, which is stored in the gallbladder and released into the small intestine to aid digestion.

Image by TheVisualMD

CRP High Sensitivity Cardiac Risk Assessment from Walk-in Lab

Video by Walk-In Lab LLC/YouTube

C-reactive Protein, Fat cells

C-reactive protein (CRP) is a substance made by the liver that is released into the bloodstream by inflammation and infection as part of the body's immune response. Researchers have found, however, that fat cells also seem to trigger the production of C-reactive protein (CRP), which is why individuals who are overweight or obese tend to have chronically higher levels of CRP.

Image by TheVisualMD

What Can Give False Readings on an hs-CRP Test? : Health Tips

Video by ehowhealth/YouTube

CRP Indicates Heart Disease Risk Video - Brigham and Women's Hospital

Video by Brigham And Women's Hospital/YouTube

This browser does not support the video element.

Cardiovascular Inflammation

Heart disease is the number one killer of men and women in the U.S. The most common cause of heart attack, stroke, and cardiovascular death is atherosclerosis. Atherosclerosis is a chronic inflammatory response in the walls of arteries that leads to the hardening of arterial walls and the buildup of fatty deposits called plaques, or atheromas. Although the process of inflammation can be beneficial in other parts of the body, chronic inflammation within arterial walls is problematic as it seems to promote this underlying growth of plaque. The combination of arterial inflammation and the growth of plaque can lead to the rupture of the plaque, and result in a blood clot. Blood clots can lead to dangerous conditions such as heart attack or stroke.

Video by TheVisualMD

Inflammation In Atherosclerotic Plaque Formation (VIDEO)

Image by TheVisualMD

2:12

CRP And Homocysteine Inflammation Markers, How Do They Relate To Coronary Artery Disease? - Dr. Lyel

EmpowHER/YouTube

1:35

Chronic Inflammation: The Root Cause of a Multitude of Diseases

Criticalbench/YouTube

5:09

Inflammation and Type 2 Diabetes

WEHImovies/YouTube

8:27

Part I - Inflammation

Armando Hasudungan/YouTube

7:54

Part II - Inflammation

Armando Hasudungan/YouTube

1:57

What Is Inflammation?

TheVisualMD

C Reactive Protein: Liver and Heart

TheVisualMD

C Reactive Protein: Fat cells

TheVisualMD

C-Reactive Protein (CRP) Molecule

TheVisualMD

C-reactive Protein, Atherosclerosis and Heart Disease

TheVisualMD

Phagocytosis - C-reactive protein (CRP) is a substance made by the liver that is released into the bloodstream by inflammation and infection as part of the body's immune response.

TheVisualMD

1:51

CRP High Sensitivity Cardiac Risk Assessment from Walk-in Lab

Walk-In Lab LLC/YouTube

C-reactive Protein, Fat cells

TheVisualMD

2:25

What Can Give False Readings on an hs-CRP Test? : Health Tips

ehowhealth/YouTube

3:37

CRP Indicates Heart Disease Risk Video - Brigham and Women's Hospital

Brigham And Women's Hospital/YouTube

4:26

Cardiovascular Inflammation

TheVisualMD

Inflammation In Atherosclerotic Plaque Formation (VIDEO)

TheVisualMD

Homocysteine Blood Test

Homocysteine Blood Test

Also called: Homocyst(e)ine, Homocysteine, Homocysteine Cardiac Risk, Hyperhomocysteinemia Test

A homocysteine test measures the level of homocysteine in your blood. High levels may mean a vitamin deficiency, heart disease, or an inherited disorder.

Homocysteine Blood Test

Also called: Homocyst(e)ine, Homocysteine, Homocysteine Cardiac Risk, Hyperhomocysteinemia Test

A homocysteine test measures the level of homocysteine in your blood. High levels may mean a vitamin deficiency, heart disease, or an inherited disorder.

{"label":"Homocysteine reference range","scale":"lin","step":0.1,"items":[{"flag":"normal","label":{"short":"N","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":15},"text":"Homocysteine is an amino acid found in most cells of the body, in trace amounts. Normally, homocysteine levels are low, because it is constantly turned into other substances your body needs.","conditions":[]},{"flag":"borderline","label":{"short":"M","long":"Moderate","orientation":"horizontal"},"values":{"min":15,"max":30},"text":"Elevated homocysteine levels, called hyperhomocysteinemia, are associated with heart attack, stroke, and blood clots. They're also associated with renal disease as well as with low levels of several B vitamins. In pregnant women, elevated homocysteine levels may affect fetal development, especially of the nervous system.","conditions":["Vitamin B deficiency","Chronic kidney failure","Homocystinuria","Coronary artery disease"]},{"flag":"abnormal","label":{"short":"I","long":"Intermediate","orientation":"horizontal"},"values":{"min":30,"max":100},"text":"Elevated homocysteine levels, called hyperhomocysteinemia, are associated with heart attack, stroke, and blood clots. They're also associated with renal disease as well as with low levels of several B vitamins. In pregnant women, elevated homocysteine levels may affect fetal development, especially of the nervous system.","conditions":["Vitamin B deficiency","Chronic kidney failure","Homocystinuria","Coronary artery disease"]},{"flag":"abnormal","label":{"short":"S","long":"Severe","orientation":"horizontal"},"values":{"min":100,"max":150},"text":"Elevated homocysteine levels, called hyperhomocysteinemia, are associated with heart attack, stroke, and blood clots. They're also associated with renal disease as well as with low levels of several B vitamins. In pregnant women, elevated homocysteine levels may affect fetal development, especially of the nervous system.","conditions":["Vitamin B deficiency","Chronic kidney failure","Homocystinuria","Coronary artery disease"]}],"units":[{"printSymbol":"\u03bcmol\/L","code":"umol\/L","name":"micromole per liter"}],"hideunits":false,"value":7.5}[{"normal":0},{"borderline":0},{"abnormal":0},{"abnormal":1}]
Use the slider below to see how your results affect your health.
μmol/L
15
30
100
Your result is Normal.
Homocysteine is an amino acid found in most cells of the body, in trace amounts. Normally, homocysteine levels are low, because it is constantly turned into other substances your body needs.
Related conditions
A homocysteine test may be used to:
- Find out if you're lacking vitamin B6, B12, or folic acid. These vitamins break down homocysteine. So if you don't have enough of them, your homocysteine levels will increase. A homocysteine test may be done with a blood test to measure your vitamin B levels.
- Help diagnose homocystinuria. Homocystinuria is a rare, genetic disease that prevents your body from using a certain amino acid to make important proteins. Symptoms usually show up in the first year of life, but they may not appear until childhood or later. Common symptoms include problems with eyesight, blood clots, and weak bones. In the U.S., most newborns have a routine screening test to check for homocystinuria.
- Better understand your risk for heart attack or stroke if you already have an increased risk. Your health care provider may order a homocysteine test if you have been diagnosed with heart or blood vessel disease or if you have conditions that increase your risk for heart and blood vessel disease, such as:
  High blood pressure
  High cholesterol
  Diabetes
Medical experts don't recommend routine homocysteine testing to screen for heart disease risk in everyone. That's because researchers aren't sure how much homocysteine levels affect heart and blood vessel diseases. And so far, studies have shown that lowering homocysteine levels doesn't reduce the risk of heart attack or stroke.
You may need this test if you have symptoms that suggest you lack vitamin B12 or folic acid. The symptoms may be very mild to severe and may include:
- Dizziness
- Fatigue and/or weakness
- Headache
- Heart palpitations (racing or pounding heart)
- Changes in the color of your skin or fingernails
- Sores on your tongue or in your mouth
- Tingling or numbness in your hands, feet, arms, and/or legs
Your provider may order this test if you have a high risk for low levels of vitamin B12 or folic acid because you:
- Have malnutrition.
- Are an older adult. Older people often can't absorb enough vitamin B12 from food.
- Have alcohol use disorder or a drug addiction.
Your provider may recommend this test if you:
- Have had a heart attack or stroke
- Have one or more conditions that increase your risk for heart attack or stroke, such as high LDL "bad" cholesterol or high blood pressure
A high homocysteine level may be a sign that:
- You are not getting enough vitamin B12 or folic acid in your diet.
- You (or your child) have homocystinuria. You will probably need more testing to rule out or confirm a diagnosis of homocystinuria.
- You may have a higher risk of heart disease, stroke, or other blood vessel disorders.
Higher than normal homocysteine levels may also happen with other conditions, such as osteoporosis, chronic kidney disease, hypothyroidism, or Alzheimer's disease or other types of dementia.
If your homocysteine levels are high, it doesn't always mean you have a medical condition that needs treatment. Your results may be affected by:
- Your age. Homocysteine levels may get higher as you get older.
- Your sex. Males usually have higher homocysteine levels than females, but levels in females increase after menopause.
- Smoking
If you have questions about your results, talk with your provider.
1. Homocysteine Test: MedlinePlus Medical Test [accessed on Oct 15, 2024]
2. Homocysteine [accessed on Sep 30, 2018]
3. 706994: Homocyst(e)ine | LabCorp [accessed on Sep 30, 2018]
4. Homocysteine Blood Test [accessed on Sep 30, 2018]
5. Fontanarosa, P., & Christiansen, S. (2009, April 01). Laboratory Values. AMA Manual of Style. Ed. [accessed on Sep 30, 2018]
6. https://www.drkarafitzgerald.com/2017/04/04/low-homocysteine-concern/ [accessed on Sep 30, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (8)

CRP And Homocysteine Inflammation Markers, How Do They Relate To Coronary Artery Disease? - Dr. Lyel

Video by EmpowHER/YouTube

This browser does not support the video element.

What Is Inflammation?

Inflammation is the body's response to damage. It takes many forms. Chronic inflammation is common in overweight and obese people, because their fat cells manufacture damaging substances that trigger a reaction from the immune system's white blood cells. Keeping track of a key biomarker for inflammation, C-reactive Protein or CRP, helps doctors determine whether an overweight patient is at risk for such conditions as heart disease, dementia, diabetes, cancers, and more.

Video by TheVisualMD

Homocystinuria Infographic

Video by HCU Network/YouTube

The Homocysteine Factor

Video by hcyfactor/YouTube

Homocysteine

homocysteine molecule (L-isomer).

Image by Ben Mills and Jynto

Homocysteine

Homocysteine is a non-proteinogenic amino acid. It is a homologue of the amino acid cysteine, differing by an additional methylene (-CH2-) group. It is biosynthesized from methionine, and can be recycled into methionine or converted into cysteine with the aid of B-vitamins. While detection of high levels of homocysteine has been linked to cardiovascular disease, lowering homocysteine levels may not improve outcomes.

Image by TheVisualMD

Fasting for a Blood Test | WebMD

Video by WebMD/YouTube

Fasting Plasma Glucose

Fasting Plasma Glucose - The fasting plasma glucose (FPG) test, also known as the fasting blood sugar test, measures blood sugar levels and is used to diagnose diabetes.

Image by TheVisualMD

2:12

CRP And Homocysteine Inflammation Markers, How Do They Relate To Coronary Artery Disease? - Dr. Lyel

EmpowHER/YouTube

1:57

What Is Inflammation?

TheVisualMD

3:57

Homocystinuria Infographic

HCU Network/YouTube

3:23

The Homocysteine Factor

hcyfactor/YouTube

Homocysteine

Ben Mills and Jynto

Homocysteine

TheVisualMD

0:50

Fasting for a Blood Test | WebMD

WebMD/YouTube

Fasting Plasma Glucose

TheVisualMD

Brain Natriuretic Peptide Tests

Brain Natriuretic Peptide Tests

Also called: BNP, NT-proBNP, Natriuretic Peptide Test, N-Terminal Pro B-Type Natriuretic Peptide Test

Natriuretic peptide tests measure levels of BNP or NT-proBNP in a sample of your blood. Natriuretic peptides are proteins that your heart and blood vessels make. High levels of either substance in the blood can be a sign of heart failure.

Brain Natriuretic Peptide Tests

Also called: BNP, NT-proBNP, Natriuretic Peptide Test, N-Terminal Pro B-Type Natriuretic Peptide Test

Natriuretic peptide tests measure levels of BNP or NT-proBNP in a sample of your blood. Natriuretic peptides are proteins that your heart and blood vessels make. High levels of either substance in the blood can be a sign of heart failure.

{"label":"BNP reference range","scale":"lin","step":0.1,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":100},"text":"B-type natriuretic peptide test reference values can widely vary according to a person\u2019s sex and age.","conditions":[]},{"flag":"abnormal","label":{"short":"High","long":"High","orientation":"horizontal"},"values":{"min":100,"max":500},"text":"High levels of BNP indicate heart failure.","conditions":["Congestive heart failure","Left ventricular hypertrophy","Acute myocardial infarction","Coronary angioplasty","Hypertension","Kidney disease"]}],"units":[{"printSymbol":"pg\/mL","code":"pg\/mL","name":"picogram per milliliter"}],"hideunits":false,"value":50}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
pg/mL
100
Your result is Normal.
B-type natriuretic peptide test reference values can widely vary according to a person’s sex and age.
Related conditions
{"label":"NT-proBNP reference range","scale":"lin","step":0.1,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":100},"text":"NT-proBNP test reference values can widely vary according to a person\u2019s sex and age.","conditions":[]},{"flag":"abnormal","label":{"short":"High","long":"High","orientation":"horizontal"},"values":{"min":100,"max":500},"text":"High levels of NT-proBNP indicate heart failure.","conditions":["Congestive heart failure","Left ventricular hypertrophy","Acute myocardial infarction","Coronary angioplasty","Hypertension","Kidney disease"]}],"units":[{"printSymbol":"pg\/mL","code":"pg\/mL","name":"picogram per milliliter"}],"hideunits":false,"value":50}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
pg/mL
100
Your result is Normal.
NT-proBNP test reference values can widely vary according to a person’s sex and age.
Related conditions
Natriuretic peptides are proteins that your heart and blood vessels make. Natriuretic peptide tests measure the amount of these proteins in a sample of your blood. They are mainly used to help confirm or rule out heart failure in people who have symptoms.
Heart failure is also called congestive heart failure. If you have this condition, your heart has trouble pumping enough oxygen-rich blood to meet your body's needs.
Two types of natriuretic peptides can be measured to check for possible heart failure. Your health care provider will decide which of these peptides to test:
- Brain natriuretic peptide (BNP) is a protein that's a type of hormone. A hormone is a chemical messenger in your bloodstream that controls the actions of certain cells or organs. BNP has "brain" in its name because that's where researchers first discovered it. Your heart makes and releases BNP into your bloodstream when it's working harder than normal to pump blood.
  The BNP tells your blood vessels to open wider and your kidneys to get rid of water and salt through urine (pee). This helps reduce the workload on your heart by lowering blood pressure and reducing the amount of blood your heart has to pump.
- N-terminal pro b-type natriuretic peptide (NT-proBNP) is a protein that's an "ingredient" for making the BNP hormone. Like BNP, your heart makes larger amounts of NT-proBNP when it has to work harder to pump blood.
It's normal to have some BNP and NT-proBNP in your bloodstream. But higher than normal levels for your age and sex may be a sign of heart failure.
Other names: brain natriuretic peptide, NT-pro B-type natriuretic peptide test, B-type natriuretic peptide, N terminal proBNP
A BNP test or an NT-proBNP test is mainly used to help diagnose or rule out heart failure in a person who is having symptoms. Shortness of breath is the most common symptom of heart failure, but other conditions can cause the same type of breathing problems.
If a person with shortness of breath has normal BNP or NT-proBNP levels, heart failure can usually be ruled out. If high BNP or NT-proBNP levels are found, other tests will usually be done to confirm that heart failure is causing the symptoms.
For people who have already been diagnosed with heart failure, the test may be used to:
- Find out how serious their heart condition is
- Predict the chances that their condition will get worse
- Check if an increase in symptoms means that heart failure has gotten worse
In certain cases, the test may also be used to monitor the heart health of people who:
- Have had a heart attack
- Have a heart condition that suddenly reduces the flow of blood to the heart, such as unstable angina
You may need a BNP test or an NT-proBNP test if you have symptoms that could mean you have heart failure. These include:
- Feeling short of breath
- Swelling in your abdomen (belly), feet, legs, and/or veins in your neck
- Fatigue and/or general weakness
- Coughing
- Inability to sleep lying flat
- Needing to urinate (pee) a lot, especially at night
- Loss of appetite and nausea
If you have already been diagnosed with heart failure, your provider may order one of these tests to learn more about your condition.
The meaning of your test results will depend on your age, sex, medical history, family history, and the results of other tests. Ask your provider to explain what the results of your BNP or NT-proBNP test say about your health and how this information may affect your treatment.
A BNP or NT-proBNP test alone can't diagnose the cause of your symptoms. But in general, if you have symptoms that could be caused by heart failure:
- Normal results on a BNP or NT-proBNP usually mean that you're unlikely to have heart failure. Your provider may order other tests to find out what's causing your symptoms.
  If you have obesity, your weight may affect the accuracy of your test results, making your levels lower than they really are. If your provider suspects heart failure, you may have other heart health tests even if your BNP or NT-proBNP levels are normal.
- Higher than normal levels of BNP or NT-proBNP mean that you could have heart failure. Your provider will probably order other heart health tests to help make a final diagnosis.
In most cases, the higher the level of your test results, the more serious your heart failure may be. But other health conditions can increase BNP and NT-proBNP levels. That's why your medical history is important for understanding whether high test results mean you have heart failure.
Other conditions that can cause high levels of BNP and NT-proBNP include:
- Kidney failure
- Other types of heart disease, including conditions that affect your heart valves or heart muscle
- Certain lung disorders, including a blood clot in your lung (pulmonary embolism) and high blood pressure in your lungs (pulmonary hypertension)
If you have questions about your results, talk with your provider.
1. Natriuretic Peptide Tests (BNP, NT-proBNP): MedlinePlus Medical Test [accessed on Jan 19, 2024]
2. Brain natriuretic peptide test: MedlinePlus Medical Encyclopedia [accessed on Jan 19, 2024]
3. Brain Natriuretic Peptide Test (BNP and NT-proBNP) - Testing.com. Jan 21, 2022 [accessed on Jan 19, 2024]

Additional Materials (2)

Heart Revealing Blood in Left Ventricle

TheVisualMD

Human Heart with Enlarged Left Ventricle

TheVisualMD

Lipoprotein (A) Blood Test

Lipoprotein (A) Blood Test

Also called: Cholesterol Lp(a), Lp(a)

This test measures the level of lipoprotein (a) in a sample of blood. Lipoprotein (a) is a particle that carries cholesterol, proteins and fats in blood vessels. A high level may mean you are at risk for heart disease.

Lipoprotein (A) Blood Test

Also called: Cholesterol Lp(a), Lp(a)

This test measures the level of lipoprotein (a) in a sample of blood. Lipoprotein (a) is a particle that carries cholesterol, proteins and fats in blood vessels. A high level may mean you are at risk for heart disease.

{"label":"Lipoprotein (a) reference range","scale":"lin","step":0.1,"items":[{"flag":"normal","label":{"short":"O","long":"Optimal","orientation":"horizontal"},"values":{"min":0,"max":14},"text":"Some cholesterol and lipoprotein (a) in your blood is normal. Lipoprotein (a) is a type of LDL, sometimes called \"bad\" cholesterol. The lower your number, the lower is the risk for heart and blood vessel disease.","conditions":[]},{"flag":"borderline","label":{"short":"N","long":"Normal","orientation":"horizontal"},"values":{"min":14,"max":30},"text":"Some cholesterol and lipoprotein (a) in your blood is normal. Lipoprotein (a) is a type of LDL, sometimes called \"bad\" cholesterol. Although this result is normal, it indicates borderline risk for heart and blood vessel disease.","conditions":[]},{"flag":"abnormal","label":{"short":"H","long":"High","orientation":"horizontal"},"values":{"min":30,"max":50},"text":"A high lipoprotein (a) level may mean you have a high risk for heart and blood vessel disease, even if your cholesterol levels are normal and you are healthy. Your risk is higher if you have familial hypercholesterolemia or signs of coronary heart disease.","conditions":["Atherosclerosis","Coronary artery disease","Heart attack","Peripheral vascular disease","Aortic stenosis","Thrombosis","Stroke"]},{"flag":"abnormal","label":{"short":"VH","long":"Very high","orientation":"horizontal"},"values":{"min":50,"max":100},"text":"A high lipoprotein (a) level may mean you have a high risk for heart and blood vessel disease, even if your cholesterol levels are normal and you are healthy. Your risk is higher if you have familial hypercholesterolemia or signs of coronary heart disease.","conditions":["Atherosclerosis","Coronary artery disease","Heart attack","Peripheral vascular disease","Aortic stenosis","Thrombosis","Stroke"]}],"units":[{"printSymbol":"mg\/dL","code":"mg\/dL","name":"milligram per deciliter"}],"hideunits":false,"value":7}[{"normal":0},{"borderline":0},{"abnormal":0},{"abnormal":1}]
Use the slider below to see how your results affect your health.
mg/dL
14
30
50
Your result is Optimal.
Some cholesterol and lipoprotein (a) in your blood is normal. Lipoprotein (a) is a type of LDL, sometimes called "bad" cholesterol. The lower your number, the lower is the risk for heart and blood vessel disease.
Related conditions
A lipoprotein (a) test measures the level of lipoprotein (a) in your blood. A high level of lipoprotein (a) may mean you have a high risk for heart disease and stroke.
Lipoproteins are particles made of protein and fats (lipids). They carry cholesterol through your bloodstream to your cells. The two main groups of lipoproteins are called HDL (high-density lipoprotein) or "good" cholesterol and LDL (low-density lipoprotein) or "bad" cholesterol.
Lipoprotein (a) is a type of LDL. These lipoproteins carry cholesterol to the cells in your arteries. If you have high levels of LDL particles, cholesterol can build up in your arteries and form blockages called plaques. This condition is known as atherosclerosis or "hardening of the arteries." It can lead many serious medical conditions including:
- Coronary artery disease, narrow or blocked arteries in your heart
- Heart attack
- Stroke
- Peripheral arterial disease, blocked arteries in your legs or arms
- Other blood vessel diseases
Lipoprotein (a) particles are stickier than other types of LDL particles, so they may be more likely to cause blockages and blood clots in your arteries. As a result, high levels of lipoprotein (a) may mean you have a very high risk for heart disease, stroke, and other serious conditions related to blockages and blood clots in your arteries.
A lipoprotein (a) blood test can give you a more accurate understanding of your risk than a routine cholesterol test that only measures your total LDL cholesterol level. That's because a routine cholesterol test may show that your LDL cholesterol level is "healthy," but if a large percentage of your LDL cholesterol is carried by lipoprotein (a) particles, your risk for heart disease and stroke could still be high.
Other names: cholesterol Lp(a), Lp(a)
Your health care provider may order the test if you have certain signs or health conditions that mean you have a high risk for blockages in your arteries, such as:
- A family health history of early heart or blood vessel disease (before age 55 for a father or brother and before age 65 for a mother or sister)
- High LDL cholesterol, even though you take medicine to lower it
- Heart or blood vessel disease, especially if your cholesterol and triglyceride levels are normal without taking medicine to lower them
- Signs of an inherited condition called familial hypercholesterolemia
- Had more than one heart attack or more than one procedure to open up narrow or blocked arteries in your heart (angioplasty)
The test may also be used to help make decisions about the risks and benefits of taking cholesterol medicine to lower your chance of developing heart and blood vessel disease.
Your genes control how much lipoprotein (a) you make. By age 5, you usually have your "adult level" of lipoprotein (a), and it tends to remain about the same for the rest of your life. For that reason, diet and exercise may not change your lipoprotein (a) levels.
But if you have a high level of lipoprotein (a), it's very important to take steps to improve your heart health. This will help lower your overall risk for heart and blood vessel problems, even though it may not change your lipoprotein (a) levels.
Your provider may suggest:
- Taking medicine to lower your LDL cholesterol if it is high
- Eating a healthy diet
- Losing weight
- Quitting smoking
- Getting regular exercise
- Reducing stress
- Lowering your blood pressure
1. Lipoprotein (a) Blood Test: MedlinePlus Medical Test [accessed on Apr 29, 2024]
2. 120188: Lipoprotein(a) | LabCorp [accessed on Sep 09, 2018]
3. https://www.labcorp.com/tests/related-documents/L15045 [accessed on Sep 09, 2018]
4. Understand Inherited Lipoprotein(a) - Lipoprotein(a) Foundation [accessed on Sep 09, 2018]
5. LIPA - Clinical: Lipoprotein (a), Serum [accessed on Sep 09, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (10)

Lipids and Lipoproteins

Lipids and Lipoproteins

Image by TheVisualMD

Lipoprotein Associated Phospholipase: Macrophage

Lp-PLA2 (or lipoprotein-associated phospholipase A2) is an enzyme produced by specialized immune cells called macrophages that engulf and destroy pathogens, foreign particles, aging cells and biological debris.

Image by TheVisualMD

Lp-PLA2, Coronary heart disease

Coronary heart disease is the leading cause of death for both men and women. There is no single biomarker that can perfectly predict a person's risk of heart disease; half of all people who suffer heart attacks have normal cholesterol. This is why researchers have developed additional biomarkers for heart disease, such as Lp-PLA2 (or lipoprotein-associated phospholipase A2), an enzyme linked to the inflammation of blood vessels. Individuals with high levels of Lp-PLA2 are at much higher risk of heart attack and stroke even if their cholesterol levels are normal.

Image by TheVisualMD

Lipoproteins

Lipid logistics: transport of triglycerides and cholesterol in organisms in form of lipoproteins as chylomicrons, VLDL, LDL, IDL, HDL.

Image by Peter Forster

Lipoprotein(a) (Lp(a)) and Stroke

Video by Children's Stroke Foundation/YouTube

Lipoprotein(a) Foundation Thanks Bob Harper ...

Video by BusinessWire/YouTube

What Is Lipoprotein(a)?

Video by Rush University System for Health/YouTube

High Cholesterol Medical Animation (Hyperlipidemia)

Video by Silverback Video/YouTube

What is FH?

Video by NationalLipid/YouTube

Jeanine's Story

Video by Rush University System for Health/YouTube

Lipids and Lipoproteins

TheVisualMD

Lipoprotein Associated Phospholipase: Macrophage

TheVisualMD

Lp-PLA2, Coronary heart disease

TheVisualMD

Lipoproteins

Peter Forster

4:09

Lipoprotein(a) (Lp(a)) and Stroke

Children's Stroke Foundation/YouTube

2:20

Lipoprotein(a) Foundation Thanks Bob Harper ...

BusinessWire/YouTube

3:47

What Is Lipoprotein(a)?

Rush University System for Health/YouTube

1:19

High Cholesterol Medical Animation (Hyperlipidemia)

Silverback Video/YouTube

1:54

What is FH?

NationalLipid/YouTube

2:48

Jeanine's Story

Rush University System for Health/YouTube

Cholesterol Levels

Cholesterol Levels

Also called: Cholesterol Test, Blood Cholesterol Testing, Total Cholesterol

A cholesterol test is a blood test that measures the amount of each type of cholesterol and certain fats in your blood. Cholesterol is needed to carry out functions such as hormone and vitamin production. High cholesterol can put you at risk for heart disease.

Cholesterol Levels

Also called: Cholesterol Test, Blood Cholesterol Testing, Total Cholesterol

A cholesterol test is a blood test that measures the amount of each type of cholesterol and certain fats in your blood. Cholesterol is needed to carry out functions such as hormone and vitamin production. High cholesterol can put you at risk for heart disease.

{"label":"Cholesterol reference range","scale":"lin","step":0.1,"items":[{"flag":"normal","label":{"short":"Desirable","long":"Desirable","orientation":"horizontal"},"values":{"min":125,"max":200},"text":"While cholesterol levels can vary widely among healthy individuals, total cholesterol levels below 200 milligrams per deciliter (mg\/dL) are considered most desirable.","conditions":[]},{"flag":"borderline","label":{"short":"Borderline high","long":"Borderline high","orientation":"horizontal"},"values":{"min":200,"max":240},"text":"High cholesterol generally means your total cholesterol is 200 mg\/dL or higher.","conditions":[]},{"flag":"abnormal","label":{"short":"High","long":"High","orientation":"horizontal"},"values":{"min":240,"max":400},"text":"Total cholesterol levels of 240 mg\/dL and higher may put people at high risk for cardiovascular disease.","conditions":["Hypercholesterolemia","Cardiovascular disease","Diabetes","Biliary cirrhosis","High-fat diet","Familial hyperlipidemia"]}],"units":[{"printSymbol":"mg\/dL","code":"mg\/dL","name":"milligram per deciliter"}],"hideunits":false,"value":162.5}[{"normal":0},{"borderline":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
mg/dL
200
240
Your result is Desirable.
While cholesterol levels can vary widely among healthy individuals, total cholesterol levels below 200 milligrams per deciliter (mg/dL) are considered most desirable.
Related conditions
{"label":"HDL cholesterol reference range","scale":"lin","step":0.1,"items":[{"flag":"abnormal","label":{"short":"Low","long":"Low","orientation":"horizontal"},"values":{"min":1,"max":40},"text":"HDL levels less than 40 mg\/dL for men and less than 50 mg\/dL for women are associated with an increased risk of heart disease.","conditions":["Cardiovascular disease","Atherosclerosis"]},{"flag":"normal","label":{"short":"Desirable","long":"Desirable","orientation":"horizontal"},"values":{"min":40,"max":60},"text":"HDL levels between 40-50 mg\/dL for men, and 50-60 mg\/dl for women, are associated with average risk of heart disease. The higher HDL levels, the better.","conditions":[]},{"flag":"normal","label":{"short":"Optimal","long":"Optimal","orientation":"horizontal"},"values":{"min":60,"max":160},"text":"HDL levels of 60 mg\/dL (milligrams per deciliter) or higher are associated with a less-than-average risk of heart disease.","conditions":[]}],"units":[{"printSymbol":"mg\/dL","code":"mg\/dL","name":"milligram per deciliter"}],"hideunits":false,"value":50}[{"abnormal":0},{"normal":0},{"normal":1}]
Use the slider below to see how your results affect your health.
mg/dL
40
60
Your result is Desirable.
HDL levels between 40-50 mg/dL for men, and 50-60 mg/dl for women, are associated with average risk of heart disease. The higher HDL levels, the better.
Related conditions
{"label":"LDL cholesterol reference range","scale":"lin","step":0.1,"items":[{"flag":"normal","label":{"short":"O","long":"Optimal","orientation":"horizontal"},"values":{"min":20,"max":100},"text":"The optimal level of LDL has changed over time and depends on the number of risk factors you have for heart disease and stroke. Generally, you want your LDL to be low. It's possible to have extremely low levels of LDL, but this is rare.","conditions":[]},{"flag":"normal","label":{"short":"NO","long":"Near optimal","orientation":"horizontal"},"values":{"min":100,"max":130},"text":"The optimal level of LDL has changed over time and depends on the number of risk factors you have for heart disease and stroke. You want your LDL to be low. Too much LDL is linked to heart disease and stroke.","conditions":[]},{"flag":"borderline","label":{"short":"BH","long":"Borderline high","orientation":"horizontal"},"values":{"min":130,"max":160},"text":"Borderline LDL represents the at-risk stage of developing high LDL. High LDL contributes to cardiovascular disease, which can cause a heart attack or stroke.","conditions":["Dyslipidemia"]},{"flag":"abnormal","label":{"short":"H","long":"High","orientation":"horizontal"},"values":{"min":160,"max":190},"text":"If you have a high LDL level, this means that you have too much LDL cholesterol in your blood. High LDL contributes to cardiovascular disease, which can cause a heart attack or stroke.","conditions":["Angina","Atherosclerosis","Dyslipidemia","Familial hypercholesterolemia","Heart attack","Metabolic syndrome","Peripheral artery disease","Stroke"]},{"flag":"abnormal","label":{"short":"VH","long":"Very high","orientation":"horizontal"},"values":{"min":190,"max":300},"text":"If you have a high LDL level, this means that you have too much LDL cholesterol in your blood. High LDL contributes to cardiovascular disease, which can cause a heart attack or stroke.","conditions":["Angina","Atherosclerosis","Dyslipidemia","Familial hypercholesterolemia","Heart attack","Metabolic syndrome","Peripheral artery disease","Stroke"]}],"units":[{"printSymbol":"mg\/dL","code":"mg\/dL","name":"milligram per deciliter"}],"hideunits":false,"value":60}[{"normal":1},{"normal":0},{"borderline":0},{"abnormal":0},{"abnormal":1}]
Use the slider below to see how your results affect your health.
mg/dL
100
130
160
190
Your result is Optimal.
The optimal level of LDL has changed over time and depends on the number of risk factors you have for heart disease and stroke. Generally, you want your LDL to be low. It's possible to have extremely low levels of LDL, but this is rare.
Related conditions
A cholesterol test is a blood test that measures the amount of cholesterol and certain fats in your blood. Cholesterol is a waxy, fat-like substance that's found in your blood and every cell of your body. You need some cholesterol to keep your cells and organs healthy.
Your liver makes all the cholesterol your body needs. But you can also get cholesterol from the foods you eat, especially meat, eggs, poultry, and dairy products. Foods that are high in dietary fat can also make your liver produce more cholesterol.
There are two main types of cholesterol: low-density lipoprotein (LDL), or "bad" cholesterol, and high-density lipoprotein (HDL), or "good" cholesterol.
Too much LDL cholesterol in your blood increases your risk for coronary artery disease and other heart diseases. High LDL levels can cause the buildup of a sticky substance called plaque in your arteries. Over time, plaque can narrow your arteries or fully block them. When this happens, parts of your body don't get enough blood:
- If the blood flow to the heart is blocked, it can cause a heart attack.
- If the blood flow to the brain is blocked, it can cause a stroke.
- If the blood flow to the arms or legs is blocked, it can cause peripheral artery disease.
Other names for a cholesterol test: Lipid profile, Lipid panel
A cholesterol test gives you and your health care provider important information about your risk of developing heart disease. If your test shows you have high cholesterol, you can take steps to lower it. This may decrease your risk of developing heart problems in the future. A cholesterol test measures:
- LDL levels. Also known as the "bad" cholesterol, LDL is the main source of blockages in the arteries.
- HDL levels. Considered the "good" cholesterol, HDL helps get rid of "bad" LDL cholesterol.
- Total cholesterol. The combined amount of LDL cholesterol and HDL cholesterol in your blood.
- Triglyceride levels. Triglycerides are a type of fat found in your blood. Some studies show that high levels of triglycerides may increase the risk of heart disease, especially in women.
- VLDL levels. Very low-density lipoprotein (VLDL) is another type of "bad" cholesterol. High VLDL levels have been linked to plaque buildup in the arteries. VLDL isn't usually included in routine cholesterol tests because it's difficult to measure. About half of VLDL is triglycerides, so your VLDL level can be estimated as a percentage of your triglyceride level.
Your provider may order a cholesterol test as part of a routine exam. You may also have a cholesterol test if you have a family history of heart disease or if your risk for heart problems is high because of:
- High blood pressure
- Type 2 diabetes
- Smoking
- Excess weight or obesity
- Lack of physical activity
- A diet high in saturated fat
Your age may also be a factor, because your risk for heart disease increases as you get older.

Cholesterol is usually measured in milligrams (mg) of cholesterol per deciliter (dL) of blood. The information below will help you understand what your test results mean. In general, low LDL levels and high HDL cholesterol levels are good for heart health.

Total cholesterol

Total Cholesterol Level	Category
Less than 200mg/dL	Desirable
200-239 mg/dL	Borderline high
240mg/dL and above	High

LDL (bad) cholesterol

LDL (Bad) Cholesterol Level	LDL Cholesterol Category
Less than 100mg/dL	Optimal (best for your health)
100-129mg/dL	Near optimal
130-159 mg/dL	Borderline high
160-189 mg/dL	High
190 mg/dL and above	Very High

HDL (good) cholesterol

HDL (Good) Cholesterol Level	HDL Cholesterol Category
60 mg/dL and higher	Considered protective against heart disease
40-59 mg/dL	The higher, the better
Less than 40 mg/dL	A major risk factor for heart disease

The LDL listed on your results may say "calculated." This means that your LDL level is an estimate based on your total cholesterol, HDL, and triglycerides. Your LDL level may also be measured "directly" from your blood sample. Either way, you want your LDL number to be low.

A healthy cholesterol level for you may depend on your age, family history, lifestyle, and other risk factors for heart disease, such as high triglyceride levels. Your provider can explain what's right for you.

High cholesterol can lead to heart disease, the number one cause of death in the United States. You can't change some risk factors for high cholesterol, such as age and your genes. But there are actions you can take to lower your LDL levels and reduce your risk, including:
- Eating a healthy diet. Reducing or avoiding foods high in saturated fat and cholesterol can help reduce the cholesterol levels in your blood.
- Losing weight. Being overweight can increase your cholesterol and risk for heart disease.
- Staying active. Regular exercise may help lower your LDL (bad) cholesterol levels and raise your HDL (good) cholesterol levels. It may also help you lose weight.
Talk to your provider before making any major change in your diet or exercise routine.
1. Cholesterol Levels: MedlinePlus Medical Test [accessed on Apr 29, 2024]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (13)

This browser does not support the video element.

What Is Atherosclerosis?

Voyage inside your body to see where cholesterol is made and how plaques form inside your arteries. Witness the inner workings of your own personal cholesterol factory: your liver. Dr. Mehmet Oz, Dr. Peter Fail, and other top experts talk about cholesterol-how it accumulates with other substances in your arteries as plaque, and what happens when plaques rupture. See exactly how tiny stents are inserted in blocked vessels, and view footage of actual bypass surgery. Discover how you can keep your arteries clear and flexible through lifestyle changes and medications.

Video by TheVisualMD

What cholesterol is and what cholesterol blood tests show

Video by Bupa Health UK/YouTube

Cholesterol Blood Test

Video by Baptist Health Physician Partners/YouTube

Cholesterol - what is it and how can you prevent high cholesterol?

Video by Healthchanneltv / cherishyourhealthtv/YouTube

Cholesterol Good and Bad

Video by The National Library of Medicine/YouTube

This browser does not support the video element.

What Is HDL and LDL Cholesterol?

This video explains the difference between HDL and LDL cholesterol. It also reveals what may occur when there are high levels of LDL in the body.LDL may stick to an artery's inner wall causing the build up of plaque, affecting blood flow. When an artery stiffens and constricts, aneurysm, heart attack, and stroke can occur.

Video by TheVisualMD

This browser does not support the video element.

Refined Carbohydrates and Atherosclerosis

Refined Carbohydrates and Atherosclerosis : In atherosclerosis, hard, fatty deposits called plaque build up inside your arteries. For decades it was thought that eating too many fatty foods, especially foods rich in cholesterol, was to blame for plaque accumulation.

Video by TheVisualMD

This browser does not support the video element.

Cardiovascular Inflammation

Heart disease is the number one killer of men and women in the U.S. The most common cause of heart attack, stroke, and cardiovascular death is atherosclerosis. Atherosclerosis is a chronic inflammatory response in the walls of arteries that leads to the hardening of arterial walls and the buildup of fatty deposits called plaques, or atheromas. Although the process of inflammation can be beneficial in other parts of the body, chronic inflammation within arterial walls is problematic as it seems to promote this underlying growth of plaque. The combination of arterial inflammation and the growth of plaque can lead to the rupture of the plaque, and result in a blood clot. Blood clots can lead to dangerous conditions such as heart attack or stroke.

Video by TheVisualMD

Total Cholesterol Rotation (HDL, LDL, and VLDL Molecules)

A test for total cholesterol is an overall measure of “good” as well as “bad” cholesterol. A lipoprotein (from the Greek lipos, for fat) is a fat-and-protein package that enables fats and cholesterol to move freely within the bloodstream (fats and blood, like oil and water, do not mix). Proteins and other components make up the outer shell of the lipoprotein; cholesterol and other fats are packed together inside. The size and density of the lipoprotein determines whether its cholesterol is classified as “good” or “bad.” This interactive features 3 lipoproteins: very high density lipoprotein (VLDL) which is the largest molecule, low-density lipoproteins (LDL) which is the medium-sized molecule, and high-density lipoproteins (HDL), which are the smallest and most dense.

Image by TheVisualMD

Total Cholesterol: Heart

The heart beats about 100,000 times a day, pumping blood through a vast system of arteries, veins and microscopic capillaries. While many risk factors for cardiovascular disease, including cholesterol levels, are related to lifestyle, others are largely genetic.

Image by TheVisualMD

Total Cholesterol: Heart and Liver

The liver produces most of the body's cholesterol in order to package fats in the form of lipoproteins. HDL is referred to as \"good\" cholesterol because it picks up excess cholesterol in the bloodstream and carries it back to the liver for disposal.

Image by TheVisualMD

Total Cholesterol: Thrombus

Thrombosis is the formation of a blood clot (thrombus) inside a blood vessel. If the clot is large or persistent enough, it can obstruct blood flow, which can starve tissue of oxygen-carrying blood. Most strokes are the result of thrombosis.

Image by TheVisualMD

Cholesterol, Atherosclerotic Heart Disease

Atherosclerosis is a disease in which fatty deposits called plaque build up inside arteries; one of the components of plaque is LDL or \"bad\" cholesterol. Over time, plaque narrows the arteries, which limits the flow of oxygen-rich blood to the body; plaque in coronary arteries restricts blood supply to the heart. Plaque also makes the arterial walls stiff and less elastic, which is why a common term for artherosclerosis is \"hardening\" of the arteries. To try to clean up the mess, the endothelial cells that make up the inner lining send out chemical signals that summon inflammatory cells. These cells invade the area and engulf the fatty molecules, leaving behind the fatty streaks. If the levels of cholesterol don't drop, the buildup continues. The fats start to accumulate faster than the cleanup process can remove them and develop into noticeable deposits known as plaque. As the plaques grow, so do the problems. The bulging plaque reduces the diameter of the arteries, which decreases blood flow and increases blood pressure. As a defense, the arteries start shoring up, making more support cells to cope with the rising blood pressure. The arteries become less flexible; hence the description of the condition as hardening of the arteries.

Image by TheVisualMD

3:10

What Is Atherosclerosis?

TheVisualMD

3:53

What cholesterol is and what cholesterol blood tests show

Bupa Health UK/YouTube

3:06

Cholesterol Blood Test

Baptist Health Physician Partners/YouTube

2:42

Cholesterol - what is it and how can you prevent high cholesterol?

Healthchanneltv / cherishyourhealthtv/YouTube

3:01

Cholesterol Good and Bad

The National Library of Medicine/YouTube

0:45

What Is HDL and LDL Cholesterol?

TheVisualMD

2:21

Refined Carbohydrates and Atherosclerosis

TheVisualMD

4:26

Cardiovascular Inflammation

TheVisualMD

Total Cholesterol Rotation (HDL, LDL, and VLDL Molecules)

TheVisualMD

Total Cholesterol: Heart

TheVisualMD

Total Cholesterol: Heart and Liver

TheVisualMD

Total Cholesterol: Thrombus

TheVisualMD

Cholesterol, Atherosclerotic Heart Disease

TheVisualMD

High-Density Lipoprotein Test

High-Density Lipoprotein Test

Also called: HDL, HDL-C, HDL Cholesterol, High-Density Lipoprotein Cholesterol

HDL, or high-density lipoprotein, is the "good" cholesterol. It helps to remove bad cholesterol from your arteries, so a higher HDL level is better.

High-Density Lipoprotein Test

Also called: HDL, HDL-C, HDL Cholesterol, High-Density Lipoprotein Cholesterol

HDL, or high-density lipoprotein, is the "good" cholesterol. It helps to remove bad cholesterol from your arteries, so a higher HDL level is better.

{"label":"High-Density Lipoprotein Reference Range","scale":"lin","step":0.1,"units":[{"printSymbol":"mg\/dL","code":"mg\/dL","name":"milligram per deciliter"}],"hideunits":false,"items":[{"flag":"abnormal","label":{"short":"Low","long":"Low","orientation":"horizontal"},"values":{"min":1,"max":40},"text":"HDL levels less than 40 mg\/dL for men and less than 50 mg\/dL for women are associated with an increased risk of heart disease.","conditions":["Cardiovascular disease","Atherosclerosis"]},{"flag":"normal","label":{"short":"Desirable","long":"Desirable","orientation":"horizontal"},"values":{"min":40,"max":60},"text":"HDL levels between 40-50 mg\/dL for men, and 50-60 mg\/dl for women, are associated with average risk of heart disease. The higher HDL levels, the better.","conditions":[]},{"flag":"normal","label":{"short":"Optimal","long":"Optimal","orientation":"horizontal"},"values":{"min":60,"max":160},"text":"HDL levels of 60 mg\/dL (milligrams per deciliter) or higher are associated with a less-than-average risk of heart disease.","conditions":[]}],"value":50}[{"abnormal":0},{"normal":0},{"normal":1}]
Use the slider below to see how your results affect your health.
mg/dL
40
60
Your result is Desirable.
HDL levels between 40-50 mg/dL for men, and 50-60 mg/dl for women, are associated with average risk of heart disease. The higher HDL levels, the better.
Related conditions
HDL and LDL are two types of lipoproteins.They are a combination of fat (lipid) and protein. The lipids need to be attached to the proteins so they can move through the blood. HDL and LDL have different purposes:
- HDL stands for high-density lipoproteins. It is sometimes called the "good" cholesterol because it carries cholesterol from other parts of your body back to your liver. Your liver then removes the cholesterol from your body.
- LDL stands for low-density lipoproteins. It is sometimes called the "bad" cholesterol because a high LDL level leads to a buildup of cholesterol in your arteries.
A blood test can measure your cholesterol levels, including HDL. When and how often you should get this test depends on your age, risk factors, and family history. The general recommendations are:
For people who are age 19 or younger:
- The first test should be between ages 9 to 11
- Children should have the test again every 5 years
- Some children may have this test starting at age 2 if there is a family history of high blood cholesterol, heart attack, or stroke
For people who are age 20 or older:
- Younger adults should have the test every 5 years
- Men ages 45 to 65 and women ages 55 to 65 should have it every 1 to 2 years
If your HDL level is too low, lifestyle changes may help. These changes may also help prevent other diseases, and make you feel better overall:
- Eat a healthy diet. To raise your HDL level, you need to eat good fats instead of bad fats. This means limiting saturated fats, which include full-fat milk and cheese, high-fat meats like sausage and bacon, and foods made with butter, lard, and shortening. You should also avoid trans fats, which may be in some margarines, fried foods, and processed foods like baked goods. Instead, eat unsaturated fats, which are found in avocado, vegetable oils like olive oil, and nuts. Limit carbohydrates, especially sugar. Also try to eat more foods naturally high in fiber, such as oatmeal and beans.
- Stay at a healthy weight. You can boost your HDL level by losing weight, especially if you have lots of fat around your waist.
- Exercise. Getting regular exercise can raise your HDL level, as well as lower your LDL. You should try to do 30 minutes of moderate to vigorous aerobic exercise on most, if not all, days.
- Avoid cigarettes. Smoking and exposure to secondhand smoke can lower your HDL level. If you are a smoker, ask your health care provider for help in finding the best way for you to quit. You should also try to avoid secondhand smoke.
- Limit alcohol. Moderate alcohol may lower your HDL level, although more studies are needed to confirm that. What we do know is that too much alcohol can make you gain weight, and that lowers your HDL level.
Some cholesterol medicines, including certain statins, can raise your HDL level, in addition to lowering your LDL level. Health care providers don't usually prescribe medicines only to raise HDL. But if you have a low HDL and high LDL level, you might need medicine.
Taking certain medicines can lower HDL levels in some people. They include
- Beta blockers, a type of blood pressure medicine
- Anabolic steroids, including testosterone, a male hormone
- Progestins, which are female hormones that are in some birth control pills and hormone replacement therapy
- Benzodiazepines, sedatives that are often used for anxiety and insomnia
If you are taking one of these and you have a very low HDL level, ask your provider if you should continue to take them.
Diabetes can also lower your HDL level, so that gives you another reason to manage your diabetes.
1. HDL: The "Good" Cholesterol: MedlinePlus [accessed on Oct 08, 2018]
2. Cholesterol Levels: What You Need to Know: MedlinePlus [accessed on Oct 08, 2018]
3. High blood cholesterol levels: MedlinePlus Medical Encyclopedia [accessed on Oct 08, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (21)

HDL and LDL Molecules Subfractionization

The standard lipid profile, which measures the quantity of LDL and HDL cholesterol in the blood stream, has proven itself to be very useful in identifying many people who are risk for heart disease. But it doesn't catch everyone at risk. A more detailed lipid profile, called lipoprotein subfraction testing, divides the basic cholesterol groups into finer categories, which makes possible more accurate risk assessment. This interactive features all of the different tests involved in a lipid panel- HDL, LDL and VLDL, and the different subclasses for each.

Image by TheVisualMD

LDL particle

LDL (low-density lipoprotein or \"bad cholesterol\") along with HDL (high-density lipoprotein or \"good cholesterol\") are the two main types of cholesterol particles in the bloodstream. LDL is referred to as \"bad\" cholesterol because it forms deposits (plaque) in the lining of blood vessels. The size and density of the lipoprotein determines whether its cholesterol is classified as \"good: or \"bad\". Low-density lipoproteins (LDL) are larger, lighter, and fluffier; high-density lipoproteins (HDL) are small and dense. An LDL test is part of a lipid panel that measures total cholesterol, LDL, HDL, and triglycerides. Cholesterol tests do not diagnose heart disease; instead, they are used to estimate risk. And while cholesterol levels can vary widely among healthy individuals, the evidence suggests that low levels of LDL cholesterol decrease the risk of heart disease and stroke, while high levels of LDL increase that risk.

Image by TheVisualMD

Cholesterol, Healthy Heart

A heart-healthy lifestyle includes a diet based on the principles of balance, variety and moderation in the consumption of fats. Fats are essential nutrients and critical building blocks. The type of fat in a diet, however, turns out to be even more important than the total amount; there are \"good\" fats and \"bad\" dietary fats, just as there are \"good\" and \"bad\" types of cholesterol in our bloodstream. Other keys to cardiovascular health and wellbeing: get aerobic exercise, don't smoke, and drink alcohol only in moderation.

Image by TheVisualMD

Aerobic athletes in general, particularly lean ones, have lower LDL (or "bad" cholesterol) levels

There are many factors that can potentially influence cholesterol levels. Exercise may be an important one, though evidence is not definitive; studies have shown that endurance athletes have higher HDL (or \"good\" cholesterol) levels, and aerobic athletes in general, particularly lean ones, have lower LDL (or \"bad\" cholesterol) levels.

Image by TheVisualMD

Cross-Section View of HDL Lipoprotein

This image shows a cross-section of a globule of High Density-Lipoprotein (HDL). HDL has a large amount of protein, which makes it denser than other lipoproteins. The purple area shows protein content (33-57%), the off-white shell shows phospholipids (26-43%), and the yellow and red interior shows cholesterol (17-40%) and triglycerides (3-15%). HDL supplies two other lipoproteins-chylomicrons and VLDLs-with proteins that signal the liver to trap and extract their fat. HDL also sponges up excess cholesterol from blood vessel linings and carries it to the liver for removal. This reduces the risk of plaque build-up in the arteries and gives HDL its nickname \"good\" cholesterol.

Image by TheVisualMD

Cholesterol, Atherosclerotic Heart Disease

Atherosclerosis is a disease in which fatty deposits called plaque build up inside arteries; one of the components of plaque is LDL or \"bad\" cholesterol. Over time, plaque narrows the arteries, which limits the flow of oxygen-rich blood to the body; plaque in coronary arteries restricts blood supply to the heart. Plaque also makes the arterial walls stiff and less elastic, which is why a common term for artherosclerosis is \"hardening\" of the arteries. To try to clean up the mess, the endothelial cells that make up the inner lining send out chemical signals that summon inflammatory cells. These cells invade the area and engulf the fatty molecules, leaving behind the fatty streaks. If the levels of cholesterol don't drop, the buildup continues. The fats start to accumulate faster than the cleanup process can remove them and develop into noticeable deposits known as plaque. As the plaques grow, so do the problems. The bulging plaque reduces the diameter of the arteries, which decreases blood flow and increases blood pressure. As a defense, the arteries start shoring up, making more support cells to cope with the rising blood pressure. The arteries become less flexible; hence the description of the condition as hardening of the arteries.

Image by TheVisualMD

Cholesterol pathway

Cholesterol is essential for the maintenance of cell membranes, production of sex hormones, and absorption of key vitamins. We get cholesterol from the foods we eat (particularly red meat, dairy and eggs), but our livers produce most of it in a multi-step process (drugs like statins interrupt this process). Cholesterol is carried in the bloodstream in specialized packages called lipoproteins.

Image by TheVisualMD

Cholesterol Traveling Through Cell Membrane to HDL

This image shows the healthy membrane of an endothelial cell in a blood vessel wall. You can see the semi-permeable double layer of phospholipids that allows lipids to move across the membrane. The cholesterol molecules (yellow) maintain permeability by keeping the phospholipid tails from sticking together. Excess cholesterol molecules are passing through the phospholipid bilayer through passive, aqueous diffusion to a mature high-denisty lipoprotein (HDL) molecule. HDL is considered \"good\" cholesterol. The cell membrane benefits from this interaction with HDL and now has less cholesterol in the membrane. The HDL molecule carries the cholesterol away and back to the liver for recycling or degradation.

Image by TheVisualMD

High-Density Lipoprotein (HDL) Molecule

High-density lipoproteins, abbreviated HDL, are small and dense protein spheres that transport cholesterol, triglyceride, and other lipids through the bloodstream. Because the density of a protein bundle is associated with its ability to gather cholesterol from cells and transport it to the liver for eventual elimination, high-density lipoproteins are commonly referred to as the \"good\" cholesterol. A heart-healthy diet is rich in HDL sources. Wholesome foods that deliver Omega-3 fatty acids, antioxidants, and soluble fibers can raise HDL levels and provide numerous health benefits, including the warding off of life-threatening diseases.

Image by TheVisualMD

This browser does not support the video element.

What Is HDL and LDL Cholesterol?

This video explains the difference between HDL and LDL cholesterol. It also reveals what may occur when there are high levels of LDL in the body.LDL may stick to an artery's inner wall causing the build up of plaque, affecting blood flow. When an artery stiffens and constricts, aneurysm, heart attack, and stroke can occur.

Video by TheVisualMD

This browser does not support the video element.

Cardiovascular Inflammation

Heart disease is the number one killer of men and women in the U.S. The most common cause of heart attack, stroke, and cardiovascular death is atherosclerosis. Atherosclerosis is a chronic inflammatory response in the walls of arteries that leads to the hardening of arterial walls and the buildup of fatty deposits called plaques, or atheromas. Although the process of inflammation can be beneficial in other parts of the body, chronic inflammation within arterial walls is problematic as it seems to promote this underlying growth of plaque. The combination of arterial inflammation and the growth of plaque can lead to the rupture of the plaque, and result in a blood clot. Blood clots can lead to dangerous conditions such as heart attack or stroke.

Video by TheVisualMD

This browser does not support the video element.

Lipids, Heart Health and Baselining Your Health

Your blood "knows" what you eat, meaning that the cardiovascular system is a sensitive barometer of a person's health, including diet. What individuals eat is reflected in their blood chemistry and the health of their heart, arteries and vessels. Fats (also known as lipids), for example, are vital to health and wellbeing throughout our lives and yet they are mostly associated with obesity and cardiovascular disease. The problem is that not all fats (or cholesterol) are equal. They share basic chemical similarities, but they also have important differences, which, in turn, result in different roles and effects in the body. Tests that offer information on diet and heart health include total cholesterol, low-density lipoprotein (LDL or "bad" cholesterol), high-density lipoprotein (HDL or "good" cholesterol), and triglycerides.

Video by TheVisualMD

The 5 Most Important Molecules in Your Body

Video by SciShow/YouTube

Cholesterol Blood Test

Video by Baptist Health Physician Partners/YouTube

High Cholesterol Medical Animation (Hyperlipidemia)

Video by Silverback Video/YouTube

British Heart Foundation - Cholesterol and heart disease

Video by British Heart Foundation/YouTube

HDL: When Good Cholesterol Goes Bad

Video by UW Video/YouTube

Lipid Panel Interpretation

Video by FatIsNotYourFault/YouTube

Triglycerides and HDL

Video by Joslin Diabetes Center/YouTube

Tri HDL

Video by ACAP Health/YouTube

HDL Molecule

HDL Molecule

Image by TheVisualMD

HDL and LDL Molecules Subfractionization

TheVisualMD

LDL particle

TheVisualMD

Cholesterol, Healthy Heart

TheVisualMD

Aerobic athletes in general, particularly lean ones, have lower LDL (or "bad" cholesterol) levels

TheVisualMD

Cross-Section View of HDL Lipoprotein

TheVisualMD

Cholesterol, Atherosclerotic Heart Disease

TheVisualMD

Cholesterol pathway

TheVisualMD

Cholesterol Traveling Through Cell Membrane to HDL

TheVisualMD

High-Density Lipoprotein (HDL) Molecule

TheVisualMD

0:45

What Is HDL and LDL Cholesterol?

TheVisualMD

4:26

Cardiovascular Inflammation

TheVisualMD

2:46

Lipids, Heart Health and Baselining Your Health

TheVisualMD

7:55

The 5 Most Important Molecules in Your Body

SciShow/YouTube

3:06

Cholesterol Blood Test

Baptist Health Physician Partners/YouTube

1:19

High Cholesterol Medical Animation (Hyperlipidemia)

Silverback Video/YouTube

6:23

British Heart Foundation - Cholesterol and heart disease

British Heart Foundation/YouTube

54:59

HDL: When Good Cholesterol Goes Bad

UW Video/YouTube

1:16:38

Lipid Panel Interpretation

FatIsNotYourFault/YouTube

3:25

Triglycerides and HDL

Joslin Diabetes Center/YouTube

2:17

Tri HDL

ACAP Health/YouTube

HDL Molecule

TheVisualMD

Low Density Lipoprotein Test

Low Density Lipoprotein Test

Also called: LDL, LDL-C, LDL Cholesterol, Low-Density Lipoprotein Cholesterol

LDL, or low-density lipoprotein, is the "bad" cholesterol. A high LDL level can lead to a buildup of cholesterol in your arteries. Too much LDL is linked to heart disease and stroke.

Low Density Lipoprotein Test

Also called: LDL, LDL-C, LDL Cholesterol, Low-Density Lipoprotein Cholesterol

LDL, or low-density lipoprotein, is the "bad" cholesterol. A high LDL level can lead to a buildup of cholesterol in your arteries. Too much LDL is linked to heart disease and stroke.

{"label":"Low Density Lipoprotein Reference Range","scale":"lin","step":0.1,"units":[{"printSymbol":"mg\/dL","code":"mg\/dL","name":"milligram per deciliter"}],"hideunits":false,"items":[{"flag":"normal","label":{"short":"O","long":"Optimal","orientation":"horizontal"},"values":{"min":20,"max":100},"text":"The optimal level of LDL has changed over time and depends on the number of risk factors you have for heart disease and stroke. Generally, you want your LDL to be low. It's possible to have extremely low levels of LDL, but this is rare.","conditions":[]},{"flag":"normal","label":{"short":"NO","long":"Near optimal","orientation":"horizontal"},"values":{"min":100,"max":130},"text":"The optimal level of LDL has changed over time and depends on the number of risk factors you have for heart disease and stroke. You want your LDL to be low. Too much LDL is linked to heart disease and stroke.","conditions":[]},{"flag":"borderline","label":{"short":"BH","long":"Borderline high","orientation":"horizontal"},"values":{"min":130,"max":160},"text":"Borderline LDL represents the at-risk stage of developing high LDL. High LDL contributes to cardiovascular disease, which can cause a heart attack or stroke.","conditions":["Dyslipidemia"]},{"flag":"abnormal","label":{"short":"H","long":"High","orientation":"horizontal"},"values":{"min":160,"max":190},"text":"If you have a high LDL level, this means that you have too much LDL cholesterol in your blood. High LDL contributes to cardiovascular disease, which can cause a heart attack or stroke.","conditions":["Angina","Atherosclerosis","Dyslipidemia","Familial hypercholesterolemia","Heart attack","Metabolic syndrome","Peripheral artery disease","Stroke"]},{"flag":"abnormal","label":{"short":"VH","long":"Very high","orientation":"horizontal"},"values":{"min":190,"max":300},"text":"If you have a high LDL level, this means that you have too much LDL cholesterol in your blood. High LDL contributes to cardiovascular disease, which can cause a heart attack or stroke.","conditions":["Angina","Atherosclerosis","Dyslipidemia","Familial hypercholesterolemia","Heart attack","Metabolic syndrome","Peripheral artery disease","Stroke"]}],"value":60}[{"normal":1},{"normal":0},{"borderline":0},{"abnormal":0},{"abnormal":1}]
Use the slider below to see how your results affect your health.
mg/dL
100
130
160
190
Your result is Optimal.
The optimal level of LDL has changed over time and depends on the number of risk factors you have for heart disease and stroke. Generally, you want your LDL to be low. It's possible to have extremely low levels of LDL, but this is rare.
Related conditions
LDL and HDL are two types of lipoproteins. They are a combination of fat (lipid) and protein. The lipids need to be attached to the proteins so they can move through the blood. LDL and HDL have different purposes:
- LDL stands for low-density lipoproteins. It is sometimes called the "bad" cholesterol because a high LDL level leads to a buildup of cholesterol in your arteries.
- HDL stands for high-density lipoproteins. It is sometimes called the "good" cholesterol because it carries cholesterol from other parts of your body back to your liver. Your liver then removes the cholesterol from your body.
A blood test can measure your cholesterol levels, including LDL. When and how often you should get this test depends on your age, risk factors, and family history. The general recommendations are:
For people who are age 19 or younger:
- The first test should be between ages 9 to 11
- Children should have the test again every 5 years
- Some children may have this test starting at age 2 if there is a family history of high blood cholesterol, heart attack, or stroke
For people who are age 20 or older:
- Younger adults should have the test every 5 years
- Men ages 45 to 65 and women ages 55 to 65 should have it every 1 to 2 years
Things that can affect your LDL level include
- Diet. Saturated fat and cholesterol in the food you eat make your blood cholesterol level rise
- Weight. Being overweight tends to raise your LDL level, lower your HDL level, and increase your total cholesterol level
- Physical Activity. A lack of physical activity can lead to weight gain, which can raise your LDL level
- Smoking. Cigarette smoking lowers your HDL cholesterol. Since HDL helps to remove LDL from your arteries, if you have less HDL, that can contribute to you having a higher LDL level.
- Age and Gender. As women and men get older, their cholesterol levels rise. Before the age of menopause, women have lower total cholesterol levels than men of the same age. After the age of menopause, women's LDL levels tend to rise.
- Genetics. Your genes partly determine how much cholesterol your body makes. High cholesterol can run in families. For example, familial hypercholesterolemia (FH) is an inherited form of high blood cholesterol.
- Medicines. Certain medicines, including steroids, some blood pressure medicines, and HIV/AIDS medicines, can raise your LDL level.
- Other medical conditions. Diseases such as chronic kidney disease, diabetes, and HIV/AIDS can cause a higher LDL level.
- Race. Certain races may have an increased risk of high blood cholesterol. For example, African Americans typically have higher HDL and LDL cholesterol levels than whites.
There are two main ways to lower your LDL cholesterol:
- Therapeutic lifestyle changes (TLC). TLC includes three parts:
  Heart-healthy eating. A heart-healthy eating plan limits the amount of saturated and trans fats that you eat. Examples of eating plans that can lower your cholesterol include the Therapeutic Lifestyle Changes diet and the DASH eating plan.
  Weight Management. If you are overweight, losing weight can help lower your LDL cholesterol.
  Physical Activity. Everyone should get regular physical activity (30 minutes on most, if not all, days).
- Drug Treatment. If lifestyle changes alone do not lower your cholesterol enough, you may also need to take medicines. There are several types of cholesterol-lowering drugs available, including statins. The medicines work in different ways and can have different side effects. Talk to your health care provider about which one is right for you. While you are taking medicines to lower your cholesterol, you still should continue with the lifestyle changes.
Some people with familial hypercholesterolemia (FH) may receive a treatment called lipoprotein apheresis. This treatment uses a filtering machine to remove LDL cholesterol from the blood. Then the machine returns the rest of the blood back to the person.
1. https://medlineplus.gov/ldlthebadcholesterol.html [accessed on Mar 01, 2019]
2. https://medlineplus.gov/ency/patientinstructions/000386.htm [accessed on Mar 01, 2019]
3. https://labtestsonline.org/tests/ldl-cholesterol [accessed on Mar 01, 2019]
4. https://my.clevelandclinic.org/health/articles/11920-cholesterol-numbers-what-do-they-mean [accessed on Mar 01, 2019]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (18)

Lipids and Lipoproteins

Lipids and Lipoproteins

Image by TheVisualMD

Lipid Absorption

Lipid Absorption

Image by OpenStax College

Cholesterol

Cholesterol is a soft, waxy, fatty substance that's found naturally in every cell in your body. It's categorized as a lipid-that is, a fat, oil, or wax that won't dissolve in water. Cholesterol is necessary for your body's health because it helps to make cell membranes, digest fats, and produce vitamin D and various steroid hormones. Your bloodstream transports cholesterol throughout your body bound to water-soluble particles called lipoproteins.

Image by TheVisualMD

Lipids & Fats

Image by TheVisualMD

Lipids & Fats

Lipids & Fats

Image by TheVisualMD

Anatomy of a Lipoprotein

Lipoproteins transport cholesterol, triglycerides, or other lipids through the bloodstream. Lipoproteins are protein spheres that consist of a core of triglycerides and cholesterol esters, surrounded by a shell made up of water-soluble phospholipids with embedded proteins and cholesterol. The lipid-laden core of the lipoprotein is insoluble in aqueous (water-based) blood, so the phospholipid-protein shell is necessary to allow the lipoprotein to float freely in the bloodstream.

Image by TheVisualMD

Anatomy of a Lipoprotein

Lipoproteins transport cholesterol, triglycerides, or other lipids through the bloodstream. Lipoproteins are protein spheres that consist of a core of triglycerides and cholesterol esters, surrounded by a shell made up of water-soluble phospholipids with embedded proteins and cholesterol. The lipid-laden core of the lipoprotein is insoluble in aqueous (water-based) blood, so the phospholipid-protein shell is necessary to allow the lipoprotein to float freely in the bloodstream.

Image by TheVisualMD

Dr. Tara Dall discusses LDL, LDL Cholesterol (LDL-C) & LDL Particles (LDL-P)

Video by AdvLip/YouTube

What Is HDL and LDL Cholesterol?

This video explains the difference between HDL and LDL cholesterol. It also reveals what may occur when there are high levels of LDL in the body.LDL may stick to an artery's inner wall causing the build up of plaque, affecting blood flow. When an artery stiffens and constricts, aneurysm, heart attack, and stroke can occur.

Image by TheVisualMD

The New Marker for Heart Disease that is BETTER than LDL Cholesterol

Video by Dr. Adrian Chavez/YouTube

% Small Dense LDL Cholesterol

The predominance of small, dense low-density lipoprotein (LDL) is now recognized as a serious cardiovascular risk factor by the National Cholesterol Education Program Adult Treatment Panel. Research showed that the predominance of small, dense LDL is associated with an increased risk of coronary artery disease (CAD).

Image by TheVisualMD

This browser does not support the video element.

What Is HDL and LDL Cholesterol?

This video explains the difference between HDL and LDL cholesterol. It also reveals what may occur when there are high levels of LDL in the body.LDL may stick to an artery's inner wall causing the build up of plaque, affecting blood flow. When an artery stiffens and constricts, aneurysm, heart attack, and stroke can occur.

Video by TheVisualMD

HDL and LDL Cholesterol Sub-fraction, Heart Disease

The standard lipid profile, which measures the quantity of LDL (\"bad\") and HDL (\"good\") cholesterol in the bloodstream, has proven itself to be useful in identifying many people who are at risk for heart disease. But it doesn't catch everyone at risk. A more detailed lipid profile, called lipoprotein sub-fraction testing, categorizes cholesterol particles according to their size and density. Such testing is more sensitive and is especially useful for people who have a strong family history of heart disease. Heart attack (myocardial infarction) is a condition when blood flow to the heart is reduced or blocked. Heart cells die when the blood supply is cut off; the longer the blood supply is cut off, the greater the area of heart damage.

Image by TheVisualMD

Low Density Lipoprotein: Arterial Wall

It's estimated that there are nearly 100,000 miles of arteries in an adult body. The walls of these arteries are composed of fibroblasts, smooth muscle cells, elastica interna, and an endothelial cell layer.

Image by TheVisualMD

Low Density Lipoprotein: Clogged Arteries (Atherosclerosis) / Plaque in Coronary Artery, close up

Plaque in Coronary Artery / Leading to a Heart Attack

1) Plaque in Coronary Artery - In this image, a tiny coronary artery has been cross-sectioned to reveal a stenosis, or narrowing, caused by fatty deposits in the blood stream. Plaque in a coronary artery may break apart, and the resulting release of platelet adhesion-enhancing substances encourages clots to form on the plaque surface. The clot may then block the flow of blood through the already narrowed artery. Having this condition present in the coronary arteries is particularly dangerous because these are the arteries that wrap around the surface of the heart and supply the organ itself with oxygen and nutrients needed to pump blood to the entire body. 2) Leading to a Heart Attack - In this image, a tiny coronary artery has been cross-sectioned to reveal a stenosis, or narrowing, caused by fatty deposits in the blood stream. It is evident that this stenosis has advanced such that tissue necrosis, or death, has occurred in the area upstream from the blockage. Plaque in a coronary artery may break apart, and the resulting release of platelet adhesion-enhancing substances encourages clots to form on the plaque surface. The clot may then block the flow of blood through the already narrowed artery. Having this condition present in the coronary arteries is particularly dangerous because these are the arteries that wrap around the surface of the heart and supply the organ itself with oxygen and nutrients needed to pump blood to the entire body. This heart has been severely injured and the individual is at a high risk for heart attack.

Interactive by TheVisualMD

Lipoprotein-Associated Phospholipase A2 (Lp-PLA2) Molecule

Lp-PLA2 (or lipoprotein-associated phospholipase A2) is an enzyme produced by specialized immune cells called macrophages that engulf and destroy pathogens, foreign particles, aging cells and biological debris. Most of the Lp-PLA2 in the body is bound to LDL (or `bad` cholesterol) and the enzyme, like LDL, is linked to inflammation and the formation of plaques on blood vessel walls. Because Lp-PLA2 is very specifically linked to inflammation of blood vessels rather than inflammation that is systemic (throughout the body), it is a particularly good biomarker for vessel health.

Image by TheVisualMD

Oleic Acid Molecule

Oleic acid is a monounsaturated Omega-9 fatty acid found in animal and vegetable fats. Monounsaturated fats have one double bond between carbon atoms in the chain and polyunsaturated fats have more than one double bond. These fats lower the risk of heart disease by reducing levels of low-density lipoprotein (LDL, or "bad" cholesterol) in the blood. In this model, carbon atoms are dark gray, hydrogen atoms are white, and oxygen atoms are red. Interactive also available on white background.

Image by TheVisualMD

Lipoprotein(a) Molecule

The test for Lipoprotein(a) is used to help assess an individual's risk of developing cardiovascular disease. Unlike other risk factors for heart disease, however, Lp(a) levels are largely genetically determined and remain fairly stable over a person's life; they are also relatively resistant to treatment by either lifestyle changes or drugs. So why test for it? Because it is additional risk factor that can flag patients and their doctors to take an aggressive approach towards other, more treatable risk factors.

Image by TheVisualMD

Lipids and Lipoproteins

TheVisualMD

Lipid Absorption

OpenStax College

Cholesterol

TheVisualMD

Lipids & Fats

TheVisualMD

Lipids & Fats

TheVisualMD

Anatomy of a Lipoprotein

TheVisualMD

Anatomy of a Lipoprotein

TheVisualMD

8:37

Dr. Tara Dall discusses LDL, LDL Cholesterol (LDL-C) & LDL Particles (LDL-P)

AdvLip/YouTube

What Is HDL and LDL Cholesterol?

TheVisualMD

5:19

The New Marker for Heart Disease that is BETTER than LDL Cholesterol

Dr. Adrian Chavez/YouTube

% Small Dense LDL Cholesterol

TheVisualMD

0:45

What Is HDL and LDL Cholesterol?

TheVisualMD

HDL and LDL Cholesterol Sub-fraction, Heart Disease

TheVisualMD

Low Density Lipoprotein: Arterial Wall

TheVisualMD

Plaque in Coronary Artery / Leading to a Heart Attack

TheVisualMD

Lipoprotein-Associated Phospholipase A2 (Lp-PLA2) Molecule

TheVisualMD

Oleic Acid Molecule

TheVisualMD

Lipoprotein(a) Molecule

TheVisualMD

Triglycerides Test

Triglycerides Test

Also called: TRIG

A triglycerides test measures the amount of triglycerides in your blood. High triglyceride levels may put you at risk for heart disease. The test is usually part of a lipid profile.

Triglycerides Test

Also called: TRIG

A triglycerides test measures the amount of triglycerides in your blood. High triglyceride levels may put you at risk for heart disease. The test is usually part of a lipid profile.

{"label":"Triglyceride reference range","scale":"lin","step":0.1,"items":[{"flag":"normal","label":{"short":"O","long":"Optimal","orientation":"horizontal"},"values":{"min":0,"max":150},"text":"For adults, triglyceride levels less than 150 mg\/dL (milligrams per deciliter) are considered optimal.","conditions":[]},{"flag":"borderline","label":{"short":"B","long":"Borderline","orientation":"horizontal"},"values":{"min":150,"max":200},"text":"Triglycerides levels between 150-199 mg\/dL are considered borderline.","conditions":[]},{"flag":"abnormal","label":{"short":"H","long":"High","orientation":"horizontal"},"values":{"min":200,"max":500},"text":"Triglyceride levels between 200-499 mg\/dL are considered high and levels more than 500 mg\/dL are considered very high. Higher than normal triglyceride levels may put you at risk for heart disease.","conditions":["Physical Inactivity","Obesity","Smoking","Alcohol Abuse","Type 2 Diabetes","Kidney Disease"]},{"flag":"abnormal","label":{"short":"VH","long":"Very high","orientation":"horizontal"},"values":{"min":500,"max":800},"text":"Triglyceride levels between 200-499 mg\/dL are considered high and levels more than 500 mg\/dL are considered very high. Higher than normal triglyceride levels may put you at risk for heart disease.","conditions":["Physical Inactivity","Obesity","Smoking","Alcohol Abuse","Type 2 Diabetes","Kidney Disease"]}],"units":[{"printSymbol":"mg\/dL","code":"mg\/dL","name":"milligram per deciliter"}],"hideunits":false,"value":75}[{"normal":0},{"borderline":0},{"abnormal":0},{"abnormal":1}]
Use the slider below to see how your results affect your health.
mg/dL
150
200
500
Your result is Optimal.
For adults, triglyceride levels less than 150 mg/dL (milligrams per deciliter) are considered optimal.
Related conditions
Healthy adults should get a lipid profile, which includes a triglycerides test, every four to six years. You may need to be tested more often if you have certain risk factors for heart disease. These include:
- Family history of heart disease
- Smoking
- Being overweight
- Unhealthy eating habits
- Lack of exercise
- Diabetes
- High blood pressure
- Age. Men 45 years or older and women 50 years or older are at a higher risk for heart disease
Triglycerides are usually measured in milligrams (mg) of triglycerides per deciliter (dL) of blood. For adults, results are usually categorized as:
- Normal/desirable triglyceride range: less than 150mg/dL
- Borderline high triglyceride range: 150 to 199 mg/dL
- High triglyceride range: 200 to 499 mg/dL
- Very high triglyceride range: 500 mg/dL and above
Higher than normal triglyceride levels may put you at risk for heart disease. To reduce your levels and lower your risk, your health care provider may recommend lifestyle changes and/or prescribe medicines.
If your results were borderline high, your provider may recommend that you:
- Lose weight
- Eat a healthier diet
- Get more exercise
- Reduce alcohol intake
- Take a cholesterol lowering medicine
If your results were high or very high, your provider may recommend the same lifestyle changes as above and also that you:
- Follow a very low-fat diet
- Lose a significant amount of weight
- Take medicine or medicines designed to lower triglycerides
Be sure to talk to your health care provider before making any major changes to your diet or exercise routine.
1. Triglycerides Test: MedlinePlus Medical Test [accessed on May 17, 2022]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (40)

Lowering Triglycerides - Mayo Clinic

Video by Mayo Clinic/YouTube

Tri HDL

Video by ACAP Health/YouTube

Triglycerides and HDL

Video by Joslin Diabetes Center/YouTube

Asian Heart Hospital - What is Triglycerides?

Video by Asian Heart Institute/YouTube

What is Plaque?

Video by CardioTabs/YouTube

Triglyceride Molecule

Triglycerides are a large and varied category of fats found in both plants and animals. Our bodies convert excess dietary calories into triglycerides, which are then stored in the cells of fat tissue; these energy-rich triglycerides can then be released later into the bloodstream as needed. Most triglycerides in the blood are packaged in the form of very low-density lipoproteins (VLDL); smaller quantities are carried in low-density lipoproteins (LDL or “bad” cholesterol) and high-density lipoproteins (HDL or “good” cholesterol).

Image by TheVisualMD

Large Small Intestine Triglycerides and Lipoproteins

Large Small Intestine Triglycerides and Lipoproteins

Image by TheVisualMD

Triglycerides

A Triglyceride model showing the positions of Sn1, Sn2 and Sn3, fatty acids, and the glycerol backbone

Image by Roger Daniels, Bunge Oils Director of Research & Development

Excess fat cells growing on top of the muscle tissue

Triglycerides are a large and varied category of fats found in both plants and animals. Because fats and blood, like oil and water, do not mix, triglycerides (as well as cholesterol) circulate through the body in special parcels called lipoproteins, which are fat-and-protein packages that enable fats to move freely within the bloodstream. Proteins and other components make up the outer shell; fats, in the form of triglycerides and cholesterol, are packed together inside.

Image by TheVisualMD

Lipids and Lipoproteins

Lipids and Lipoproteins

Image by TheVisualMD

Thoracic Duct

The lymphatic system consists of a network of vessels and nodes that collect and carry a clear fluid called lymph that plays roles in immune function as well as the transport of nutrients. The thoracic duct, which is the largest vessel in the lymphatic system, delivers lymph into the bloodstream, including lymph from the intestinal system, called chyle, which is milky rich in fats.

Image by TheVisualMD

Triglyceride Molecule

Triglycerides are the body's primary form of stored fat. When you consume excess calories, your body converts them right away into triglycerides. In the liver, triglycerides are packaged up with cholesterol and with proteins in carriers called lipoproteins, which are transported through the blood to various sites of the body to be stored in fat cells. Luckily for anyone with a high triglyceride reading in their lipid profile, levels can often be lowered by making smart changes to the diet. Even if you are prescribed medication to lower triglyceride levels, your physician will also recommend improving food choices. In this model, carbon atoms are dark gray, hydrogen atoms are white, and oxygen atoms are red.

Image by TheVisualMD

Triglyceride Molecule

Triglycerides are the body's primary form of stored fat. When you consume excess calories, your body converts them right away into triglycerides. In the liver, triglycerides are packaged up with cholesterol and with proteins in carriers called lipoproteins, which are transported through the blood to various sites of the body to be stored in fat cells. Luckily for anyone with a high triglyceride reading in their lipid profile, levels can often be lowered by making smart changes to the diet. Even if you are prescribed medication to lower triglyceride levels, your physician will also recommend improving food choices. In this model, carbon atoms are dark gray, hydrogen atoms are white, and oxygen atoms are red.

Image by TheVisualMD

Triglycerides: Liver and Intestines

The liver is the body's central chemical plant, removing toxins, storing sugars and lipids and producing a wide range of proteins that play key roles as enzymes. The liver also produces packages cholesterol and triglycerides, along with special proteins, into lipoproteins.

Image by TheVisualMD

Triglycerides: Triglyceride

Triglycerides are a large and varied category of fats found in both plants and animals. When we eat our bodies convert excess calories into triglycerides, which can be stored in fat cells and then released as needed into the bloodstream for energy between meals.

Image by TheVisualMD

LDL-Particles: Triglycerides

One factor that may contribute to a high LDL particle count is raised levels of triglycerides. Elevated triglyceride levels in the blood start a chain of biochemical reactions that eventually leads to a reduction in the size of LDL particles. The smaller LDL particles can't carry as much cholesterol as larger LDL particles, so a greater number of them is needed to carry a given amount of cholesterol.

Image by TheVisualMD

Lipid Absorption

Lipid Absorption

Image by OpenStax College

lipid vesicles in these adipocytes

The preadipocyte cell line PA6 fully differentiated into adipocytes. The lipid vesicles in these adipocytes are stained using oil-red-O staining.

Image by M. Oktar Guloglu

Anatomy of a Lipoprotein

Lipoproteins transport cholesterol, triglycerides, or other lipids through the bloodstream. Lipoproteins are protein spheres that consist of a core of triglycerides and cholesterol esters, surrounded by a shell made up of water-soluble phospholipids with embedded proteins and cholesterol. The lipid-laden core of the lipoprotein is insoluble in aqueous (water-based) blood, so the phospholipid-protein shell is necessary to allow the lipoprotein to float freely in the bloodstream.

Image by TheVisualMD

Anatomy of a Lipoprotein

Lipoproteins transport cholesterol, triglycerides, or other lipids through the bloodstream. Lipoproteins are protein spheres that consist of a core of triglycerides and cholesterol esters, surrounded by a shell made up of water-soluble phospholipids with embedded proteins and cholesterol. The lipid-laden core of the lipoprotein is insoluble in aqueous (water-based) blood, so the phospholipid-protein shell is necessary to allow the lipoprotein to float freely in the bloodstream.

Image by TheVisualMD

Anatomy of a Lipoprotein

Lipoproteins transport cholesterol, triglycerides, or other lipids through the bloodstream. Lipoproteins are protein spheres that consist of a core of triglycerides and cholesterol esters, surrounded by a shell made up of water-soluble phospholipids with embedded proteins and cholesterol. The lipid-laden core of the lipoprotein is insoluble in aqueous (water-based) blood, so the phospholipid-protein shell is necessary to allow the lipoprotein to float freely in the bloodstream.

Image by TheVisualMD

Anatomy of a Lipoprotein

Lipoproteins transport cholesterol, triglycerides, or other lipids through the bloodstream. Lipoproteins are protein spheres that consist of a core of triglycerides and cholesterol esters, surrounded by a shell made up of water-soluble phospholipids with embedded proteins and cholesterol. The lipid-laden core of the lipoprotein is insoluble in aqueous (water-based) blood, so the phospholipid-protein shell is necessary to allow the lipoprotein to float freely in the bloodstream.

Image by TheVisualMD

Breast Milk Component Pathway

The components of breast milk are brought together in the alveoli via different routes. Breast milk constituents are either absorbed from the bloodstream from nutrients in the mother's diet or synthesized in special milk-producing cells called lactocytes. These constituents are brought together in the alveoli via different routes. Some components pass through or between the lactocytes, while others are assembled within the lactocytes.

Image by TheVisualMD

Maintaining Cardiovascular Health

This series of images illustrates diet and lifestyle changes that help maintain cardiovascular health, and which may actually help improve existing damage. From left to right: 1) A woman eats an apple, with visible cardiovascular system and digestive system. 2) Fresh vegetables, including tomatoes, peppers, broccoli, cauliflower and carrots, are high in fiber which helps keep blood lipid levels healthy. 3) Monounsaturated and polyunsaturated fats are better for heart health than trans fats and saturated fats. Good sources include those shown: nuts, seeds, olive oil and omega-3 fatty acids like those found in salmon. 4) A woman takes a vigorous walk with muscles, skeletal bones and heart visible. Regular exercise in combination with a heart-healthy diet helps keep your heart and blood vessels in top condition.

Image by TheVisualMD

Fat Cells Growing on the Surface of a Blood Vessel

This image shows mature fat cells growing on the surface of a blood vessel. The image is from an animation that shows how fat cells, or adipocytes, expand and contribute to obesity. Some tissue is also visible in the image.

Image by TheVisualMD

Healthy Cell Membrane

This image shows the healthy membrane of an endothelial cell in a blood vessel wall. You can see the semi-permeable double layer of phospholipids that allows lipids to move across the membrane. The cholesterol molecules (yellow) maintain permeability by keeping the phospholipid tails from sticking together.

Image by TheVisualMD

Coronary Artery Disease

Image by TheVisualMD

Coronary Artery Disease - Managing Atherosclerosis Risk

Managing Atherosclerosis Risk : Certain lifestyle habits, traits, and conditions may increase the probability that you'll develop atherosclerosis. These conditions are known as risk factors. The more risk factors you have, the greater your chances of developing atherosclerosis. Fortunately, most of these risk factors are within your control.

Image by TheVisualMD

Abnormal blood lipid levels and hypertension both increase the risk of atherosclerosis

Message From The Heart : Abnormal blood lipid levels and hypertension both increase the risk of atherosclerosis. In atherosclerosis, cholesterol and other substances create hard, waxy plaques inside your arteries, narrowing them and making it more difficult for blood to get through.

Image by TheVisualMD

Fat: What Is It Good For?

Adipose tissue (fat tissue) is a type of connective tissue. The two main types of adipose tissue in humans are subcutaneous (under the skin) and visceral (inside the abdomen). Adipose tissue performs many functions in your body. Its main job is to store energy in the form of lipids (triglycerides and cholesterol). When you eat fatty foods, often there are more lipids than you need for energy at that time. The excess lipids are stored in your adipose tissue. The same holds true for proteins and carbohydrates—when you eat more of them than you need immediately, excess amounts are converted to lipids and stored in adipose tissue for future use.

Image by TheVisualMD

Coronary Artery Disease - Risk Factors Of Atherosclerosis

Risk Factors Of Atherosclerosis : Scientists think that immune system cells may gather at injures areas of the lining of the arteries in an attempt to "heal" the damage. Lipids like cholesterol adhere as well, together with other substances in the blood like calcium and fibrin (connective tissue). Together they form the hard, fatty deposit called plaques.

Image by TheVisualMD

Getting to the Heart of Things

The cardiovascular system consists of the heart, the blood vessels, and the blood itself. Blood is mostly made up of plasma and red and white blood cells. But it contains many other substances as well, like platelets, hormones, and nutrients such as glucose. The cardiovascular system distributes these substances throughout the body as needed and collects waste products from your cells for elimination.

Image by TheVisualMD

Obese Child Showing Cardiovascular System and Visceral Fat

Most of the kids diagnosed with type 2 diabetes are obese. Normally, insulin in the blood binds with an insulin receptor on a cell surface to allow glucose (blood sugar) to enter the cell. In type 2 diabetes, insulin doesn't work to allow glucose into the cell. Obesity and its related conditions, such as high blood pressure, abnormal glucose tolerance, and high lipid levels, are major risk factors for cardiovascular disease (CVD), diseases of the heart and blood vessels. Most of us think of CVD, the leading cause of death in the US, as an adult disease. But CVD can begin early on, even in childhood, and get progressively worse. Obese children and children with abnormally high blood cholesterol and triglyceride levels can develop fatty streaks in their arteries, the first steps in the formation of plaques. Some may even develop plaques. CVD has become a pediatric disease.

Image by TheVisualMD

Obese Young Child Showing Cardiovascular System and Visceral Fat

Most of the kids diagnosed with type 2 diabetes are obese. Normally, insulin in the blood binds with an insulin receptor on a cell surface to allow glucose (blood sugar) to enter the cell. In type 2 diabetes, insulin doesn't work to allow glucose into the cell. Obesity and its related conditions, such as high blood pressure, abnormal glucose tolerance, and high lipid levels, are major risk factors for cardiovascular disease (CVD), diseases of the heart and blood vessels. Most of us think of CVD, the leading cause of death in the US, as an adult disease. But CVD can begin early on, even in childhood, and get progressively worse. Obese children and children with abnormally high blood cholesterol and triglyceride levels can develop fatty streaks in their arteries, the first steps in the formation of plaques. Some may even develop plaques. CVD has become a pediatric disease.

Image by TheVisualMD

Lipoproteins

Lipoproteins are protein spheres that transport lipids through your bloodstream.

Image by TheVisualMD

Bile Acids

Digestion of Fats : You need cholesterol in order to digest food. One of the other major uses of cholesterol is the production of bile acids (also known as bile salts) in the liver. Bile contains a number of ingredients, including water, cholesterol, and bile acids. Bile is necessary for the absorption of fats from fecal matter passing through the intestine.

Image by TheVisualMD

Statins Lowering Cholesterol

Statins lower cholesterol levels by reducing the production of cholesterol by the liver. They also increase the capacity of the liver to remove cholesterol from the blood. When less produced and more gets removed from the bloodstream, the level of cholesterol can drop significantly.

Image by TheVisualMD

Cardiovascular disease

Atherosclerosis Risk Factors, Major Risk Factors You Can Control:

Image by TheVisualMD

Triglyceride Molecule

Triglycerides are the body's primary form of stored fat. When you consume excess calories, your body converts them right away into triglycerides. In the liver, triglycerides are packaged up with cholesterol and with proteins in carriers called lipoproteins, which are transported through the blood to various sites of the body to be stored in fat cells. Luckily for anyone with a high triglyceride reading in their lipid profile, levels can often be lowered by making smart changes to the diet. Even if you are prescribed medication to lower triglyceride levels, your physician will also recommend improving food choices. In this model, carbon atoms are dark gray, hydrogen atoms are white, and oxygen atoms are red

Image by TheVisualMD

The ABC's of Vitamins

Image by TheVisualMD

2:46

Lowering Triglycerides - Mayo Clinic

Mayo Clinic/YouTube

2:17

Tri HDL

ACAP Health/YouTube

3:25

Triglycerides and HDL

Joslin Diabetes Center/YouTube

3:11

Asian Heart Hospital - What is Triglycerides?

Asian Heart Institute/YouTube

2:19

What is Plaque?

CardioTabs/YouTube

Triglyceride Molecule

TheVisualMD

Large Small Intestine Triglycerides and Lipoproteins

TheVisualMD

Triglycerides

Roger Daniels, Bunge Oils Director of Research & Development

Excess fat cells growing on top of the muscle tissue

TheVisualMD

Lipids and Lipoproteins

TheVisualMD

Thoracic Duct

TheVisualMD

Triglyceride Molecule

TheVisualMD

Triglyceride Molecule

TheVisualMD

Triglycerides: Liver and Intestines

TheVisualMD

Triglycerides: Triglyceride

TheVisualMD

LDL-Particles: Triglycerides

TheVisualMD

Lipid Absorption

OpenStax College

lipid vesicles in these adipocytes

M. Oktar Guloglu

Anatomy of a Lipoprotein

TheVisualMD

Anatomy of a Lipoprotein

TheVisualMD

Anatomy of a Lipoprotein

TheVisualMD

Anatomy of a Lipoprotein

TheVisualMD

Breast Milk Component Pathway

TheVisualMD

Maintaining Cardiovascular Health

TheVisualMD

Fat Cells Growing on the Surface of a Blood Vessel

TheVisualMD

Healthy Cell Membrane

TheVisualMD

Coronary Artery Disease

TheVisualMD

Coronary Artery Disease - Managing Atherosclerosis Risk

TheVisualMD

Abnormal blood lipid levels and hypertension both increase the risk of atherosclerosis

TheVisualMD

Fat: What Is It Good For?

TheVisualMD

Coronary Artery Disease - Risk Factors Of Atherosclerosis

TheVisualMD

Getting to the Heart of Things

TheVisualMD

Obese Child Showing Cardiovascular System and Visceral Fat

TheVisualMD

Obese Young Child Showing Cardiovascular System and Visceral Fat

TheVisualMD

Lipoproteins

TheVisualMD

Bile Acids

TheVisualMD

Statins Lowering Cholesterol

TheVisualMD

Cardiovascular disease

TheVisualMD

Triglyceride Molecule

TheVisualMD

The ABC's of Vitamins

TheVisualMD

EKG

Electrocardiogram

Also called: EKG, ECG

An electrocardiogram (EKG) is a test that measures electrical signals in your heart. An abnormal EKG can be a sign of heart damage or disease.

Electrocardiogram

Also called: EKG, ECG

An electrocardiogram (EKG) is a test that measures electrical signals in your heart. An abnormal EKG can be a sign of heart damage or disease.

{"label":"Electrocardiogram reference range","scale":"lin","step":0.25,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"EKG results are normal with a consistent heartbeat and rhythm. ","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"The EKG identified an abnormal heart rhythm.","conditions":["Arrhythmia","Tachycardia","Bradycardia","Myocardial ischemia","Aneurysm","Atherosclerosis","Heart attack"]}],"hideunits":true,"value":0.5}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
EKG results are normal with a consistent heartbeat and rhythm.
Related conditions
An electrocardiogram (EKG) test is a simple, painless, and quick test that records your heart's electrical activity. Each time your heart beats, an electrical signal travels through your heart. The signal triggers your heart's four chambers to contract (squeeze) in the proper rhythm so that your heart can pump blood to your body.
An EKG recording of these signals looks like wavy lines. Your provider can read these lines to look for abnormal heart activity that may be a sign of heart disease or damage.
An EKG can show:
- How fast your heart is beating
- Whether the rhythm of your heartbeat is steady or irregular
- The strength and timing of the electrical signals passing through each part of your heart
Sometimes information from an EKG can help measure the size and position of your heart's chambers.
An EKG is often the first test you'll have if you have signs of a heart condition. It may be done in your provider's office, an outpatient clinic, in a hospital before surgery, or as part of another heart test called a stress test.
An EKG test is also called an ECG. EKG is based on the German spelling, elektrokardiogramm. EKG may be preferred over ECG to avoid confusion with an EEG, a test that measures brain waves.
Other names: ECG test, Holter monitor, ambulatory electrocardiography, continuous electrocardiograms, transtelephonic event monitors
An EKG test is used to help diagnose and monitor many types of heart conditions and their treatment. These conditions include:
- Arrhythmia
- Cardiomyopathy
- Coronary artery disease
- Heart attack
- Heart failure
- Heart valve diseases
- Congenital heart defects
EKG tests are mainly used for people who have symptoms of a heart condition or have already been diagnosed with a heart condition. They are not generally used to screen people who don't have symptoms unless they have an increased risk of developing heart disease. Your provider can explain your risk for heart disease and let you know if need to have an EKG test. In certain cases, your provider may have you see a cardiologist, a doctor who specializes in heart diseases.
You may need an EKG test if you have symptoms of a heart condition, including:
- Chest pain
- Rapid or irregular heartbeat
- Shortness of breath
- Dizziness
- Fatigue
- A decrease in your ability to exercise
You may also need an EKG to:
- Find out if you had a heart attack in the past but didn't know it
- Monitor your heart if you have a known heart condition
- Check how well your heart treatment is working, including medicine and/or a pacemaker
- Check your heart health:
  Before having surgery
  If you have an increased risk for developing heart disease because:
  Heart disease runs in your family
  You have another condition, such as diabetes, that makes your risk higher than normal
An EKG test only takes a few minutes. It generally includes these steps:
- You will lie on an exam table.
- A provider will place several electrodes (small sensors that stick to your skin) on your arms, legs, and chest. The provider may need to shave body hair to make sure the electrodes stay on.
- The electrodes are attached by wires to a computer or a special EKG machine
- You will lie very still while your heart's electrical activity is recorded on a computer or printed on paper by an EKG machine.
An EKG is a "snapshot" of your heart's activity over a very short time. If you have heart symptoms that come and go, a regular EKG may not catch the problem. In that case, your provider may recommend that you wear a small portable EKG monitor that can record your heart for days or longer while you do your normal activities. You may also need a longer EKG recording if your provider wants to check how well your heart is working after a heart attack or to see if treatment is helping you.
There are many types of long-term EKG monitors. The two main groups are Holter monitors, which can be worn for up to two days, and event monitors, which may record your heart activity for weeks to years depending on the type.
A Holter monitor is about the size of a small camera. You usually wear it on a belt or strap around your neck for a day or two. Wires under your clothes attach to electrodes that stick to your chest. The monitor records your heart's electrical signals the whole time you're wearing it. You may be asked to keep a diary of your symptoms during the test period. After the test period, you remove the monitor and return it according to the instructions. A provider will review the recording of your heart's electrical activity from the monitor.
An event monitor records your heart's electrical activity when you press a button or when the device detects abnormal heart activity. There two main types of event monitors:
- Event monitors that you wear or carry with you. You wear some monitors on your chest or wrist. Other monitors are designed to carry. If you have symptoms, you hold the monitor to your chest. These event monitors may be used for weeks to months. Some of them wirelessly transmit information about your heart to a provider. Others must be returned so a provider can examine the recorded information.
- Event monitors that are inserted under the skin of your chest. These are called implantable event monitors. They are put under your skin during minor surgery that's often done in a doctor's office. These monitors can track your heart's electrical activity for years. You may need this type of EKG monitor if you had a stroke or frequent fainting, and your provider hasn't found the cause. Implantable monitors wirelessly transmit the information they record so your provider can regularly check it.
1. Electrocardiogram: MedlinePlus Medical Test [accessed on Mar 09, 2023]
2. Electrocardiogram: MedlinePlus Medical Encyclopedia [accessed on Feb 04, 2019]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (35)

How to Read an Electrocardiogram (ECG): Introduction – Cardiology | Lecturio

Video by Lecturio Medical/YouTube

Major Types of Heart Block

Video by Jeff Otjen/YouTube

How An ECG Works

Video by LivingHealthyChicago/YouTube

This browser does not support the video element.

What are Arrhythmias?

Your heart is electric. In this video you'll see how your heart's electrical system works, and what happens when it malfunctions. Voyage inside the human body as Dr. Mehmet Oz and others explain the dangers of heart arrhythmias, including tachycardia, bradycardia, and atrial fibrillation.

Video by TheVisualMD

12 Lead ECG Explained, Animation

Video by Alila Medical Media/YouTube

Bundle Branch Block, Animation.

Video by Alila Medical Media/YouTube

QRS Transitional Zone. See link for real voice update in description!

Video by Alila Medical Media/YouTube

ECG Interpretation Basics - ST Segment Changes. See link for real voice update in description!

Video by Alila Medical Media/YouTube

Cardiac Axis Interpretation. See link for real voice update in description!

Video by Alila Medical Media/YouTube

Electrical system of the heart | Circulatory system physiology | NCLEX-RN | Khan Academy

Video by khanacademymedicine/YouTube

Cardiovascular | EKG Basics

Video by Ninja Nerd/YouTube

Cardiovascular | EKG's

Video by Ninja Nerd/YouTube

Normal sinus rhythm on an EKG | Circulatory System and Disease | NCLEX-RN | Khan Academy

Video by khanacademymedicine/YouTube

Cardiac Conduction System and Understanding ECG, Animation.

Video by Alila Medical Media/YouTube

Willem Einthoven and the ECG - Stuff of Genius

Video by Stuff of Genius - HowStuffWorks/YouTube

Electrocardiogram (ECG)

A useful tool for determining whether a person has heart disease, an electrocardiogram (ECG) is a test that records the electrical activity of the heart. An ECG, which is painless (no electricity is sent through the body), is used to measure damage to the heart, how fast the heart is beating and whether it is beating normally, the effects of drugs or devices used to control the heart (such as a pacemaker), and the size and position of the heart chambers.

Image by TheVisualMD

Cardiac cycle

Cardiac Cycle vs Electrocardiogram

Image by OpenStax College

Medical Checkups

Image by TheVisualMD

Electrocardiogram

Electrocardiograms (EKGs) are the most commonly given test used to diagnose coronary artery disease. They record the heart's electrical activity and show evidence of angina or heart attack.

Image by TheVisualMD

electrocardiogram-illustration made up from Medications

https://pixabay.com/en/electrocardiogram-blood-pressure-ekg-2858693/

Image by GDJ

Electrocardiogram

A normal tracing shows the P wave, QRS complex, and T wave. Also indicated are the PR, QT, QRS, and ST intervals, plus the P-R and S-T segments.

Image by CNX Openstax

What To Expect After an Electrocardiogram

Normal ECG/EKG complex with labels

Image by Derivative: Hazmat2 Original: Hank van Helvete

Cardiac Stress Test

The image shows a patient having a stress test. Electrodes are attached to the patient's chest and connected to an EKG (electrocardiogram) machine. The EKG records the heart's electrical activity. A blood pressure cuff is used to record the patient's blood pressure while he walks on a treadmill.

Image by National Heart Lung and Blood Institute

Relationship between the Cardiac Cycle and ECG

Initially, both the atria and ventricles are relaxed (diastole). The P wave represents depolarization of the atria and is followed by atrial contraction (systole). Atrial systole extends until the QRS complex, at which point, the atria relax. The QRS complex represents depolarization of the ventricles and is followed by ventricular contraction. The T wave represents the repolarization of the ventricles and marks the beginning of ventricular relaxation.

Image by CNX Openstax

The Electric Heart

Image by TheVisualMD

Electrocardiogram (EKG)

Electrocardiogram (EKG) is a test used to measure the electrical activity of the heart.

Image by U.S. National Library of Medicine

Comparison of Arrhythmia and Normal ECG

As the muscle tissue in an overstressed heart expands, it tears and scars. The resulting tissue - hardened and marred - does not conduct electricity well. The result is that the system can no longer be relied on to deliver the carefully synchronized pattern of jolts needed to keep the heart pumping smoothly. Doctors call it \"arrhythmia.\" The heart is literally \"skipping a beat.\" This can be measured by an electrocardiogram (ECG). In some cases, arrhythmia can mean simply that the heartbeat is too fast or too slow - a bothersome but not necessarily life-threatening condition. In the worst cases, the arrhythmia indicates a potentially lethal instability in the heart's electric system. The signals that control the heart's contractions get crossed and the heart spasms. If not corrected immediately, this fibrillation of the heart is often fatal. In the U.S., more than 1,000 people die every day from sudden cardiac death, or cardiac arrest.

Image by TheVisualMD

Heart Revealing Chamber and Valve

Your heart beats faster or slower depending on information from your brain, which monitors your body's need for blood. However, the basic rhythm of your heart is automatic; it does not depend on signals from your brain. Your heart cells can generate their own electrical signals, which trigger the contractions and cause the entire heart to pump in synchrony. A specialized bundle of muscle and nerve cells called the sinoatrial node (SA node) sits at the top of the right atrium and is the pacemaker of the heart. It generates the signal for the atria to contract and send blood to the ventricles. A similar node - the atrioventricular or AV node - sits at the atrioventricular septum near the bottom of the right atrium and relays the signal from the SA node to the ventricles to contract and pump blood out of the heart. An electrocardiogram (ECG) measures the electrical signals given off by these two nodes and their conduction through the heart. By looking at the frequency and the height of the peaks and valleys of these signals on an ECG, healthcare professionals get a very good idea of how well the electrical system of your heart is working.

Image by TheVisualMD

Electrocardigram

An electrocardiogram (EKG) detects and records the heart's electrical activity. When the electrical impulse passes through the atria a small peak is recorded (P), followed by a steep spike as it erupts through the ventricles (R), and then another small peak (T) as the wave passes through and the heart repolarizes (recharges) itself for the next beat.

Image by TheVisualMD

Electro- cardiogram

Electrocardiograms, or EKGs, record the electrical activity of the heart. Since injured heart muscle conducts electrical impulses abnormally, the EKG shows if the patient has had or is having a heart attack. It is usually the first test performed.

Image by TheVisualMD

SinusRhythmLabels

Schematic diagram of normal sinus rhythm for a human heart as seen on ECG. In atrial fibrillation, however, the P waves, which represent depolarization of the atria, are absent.

Image by Agateller (Anthony Atkielski)

How To Use an Automated External Defibrillator

The image shows a typical setup using an automated external defibrillator (AED). The AED has step-by-step instructions and voice prompts that enable an untrained bystander to correctly use the machine.

Image by National Heart Lung and Blood Institute

Who Needs an Implantable Cardioverter Defibrillator?

Lead II (2) ECG EKG strip of an AICD ICD converting a patient back into thier baseline cardiac ryhthm. The AICD fires near the end of the strip, where the straight line is seen.

Image by Public Domain

Cardiac Cycle

CG Animated Human Heart cut section showing the atria, ventricles and valves, synced with wiggers diagram.

Image by DrJanaOfficial/Wikimedia

Mammalian Heart and Blood Vessels

The beating of the heart is regulated by an electrical impulse that causes the characteristic reading of an ECG. The signal is initiated at the sinoatrial valve. The signal then (a) spreads to the atria, causing them to contract. The signal is (b) delayed at the atrioventricular node before it is passed on to the (c) heart apex. The delay allows the atria to relax before the (d) ventricles contract. The final part of the ECG cycle prepares the heart for the next beat.

Image by CNX Openstax

9:53

How to Read an Electrocardiogram (ECG): Introduction – Cardiology | Lecturio

Lecturio Medical/YouTube

9:23

Major Types of Heart Block

Jeff Otjen/YouTube

2:45

How An ECG Works

LivingHealthyChicago/YouTube

3:27

What are Arrhythmias?

TheVisualMD

3:27

12 Lead ECG Explained, Animation

Alila Medical Media/YouTube

3:48

Bundle Branch Block, Animation.

Alila Medical Media/YouTube

3:50

QRS Transitional Zone. See link for real voice update in description!

Alila Medical Media/YouTube

1:24

ECG Interpretation Basics - ST Segment Changes. See link for real voice update in description!

Alila Medical Media/YouTube

3:32

Cardiac Axis Interpretation. See link for real voice update in description!

Alila Medical Media/YouTube

9:43

Electrical system of the heart | Circulatory system physiology | NCLEX-RN | Khan Academy

khanacademymedicine/YouTube

52:29

Cardiovascular | EKG Basics

Ninja Nerd/YouTube

20:37

Cardiovascular | EKG's

Ninja Nerd/YouTube

8:53

Normal sinus rhythm on an EKG | Circulatory System and Disease | NCLEX-RN | Khan Academy

khanacademymedicine/YouTube

3:45

Cardiac Conduction System and Understanding ECG, Animation.

Alila Medical Media/YouTube

1:46

Willem Einthoven and the ECG - Stuff of Genius

Stuff of Genius - HowStuffWorks/YouTube

Electrocardiogram (ECG)

TheVisualMD

Cardiac cycle

OpenStax College

Medical Checkups

TheVisualMD

Electrocardiogram

TheVisualMD

electrocardiogram-illustration made up from Medications

GDJ

Electrocardiogram

CNX Openstax

What To Expect After an Electrocardiogram

Derivative: Hazmat2 Original: Hank van Helvete

Cardiac Stress Test

National Heart Lung and Blood Institute

Relationship between the Cardiac Cycle and ECG

CNX Openstax

The Electric Heart

TheVisualMD

Electrocardiogram (EKG)

U.S. National Library of Medicine

Comparison of Arrhythmia and Normal ECG

TheVisualMD

Heart Revealing Chamber and Valve

TheVisualMD

Electrocardigram

TheVisualMD

Electro- cardiogram

TheVisualMD

SinusRhythmLabels

Agateller (Anthony Atkielski)

How To Use an Automated External Defibrillator

National Heart Lung and Blood Institute

Who Needs an Implantable Cardioverter Defibrillator?

Public Domain

Cardiac Cycle

DrJanaOfficial/Wikimedia

Mammalian Heart and Blood Vessels

CNX Openstax

Calcium Scan

Coronary Calcium Scan

Also called: Coronary CT calcium scan, Calcium scan test, Cardiac CT for calcium scoring, Cardiac CT scan, Heart CT scan

A coronary calcium scan is a CT scan of your heart that detects and measures the amount of calcium in the walls of your coronary arteries. Buildup of calcium, or calcifications, are a sign of atherosclerosis, coronary heart disease, or coronary microvascular disease.

Coronary Calcium Scan

Also called: Coronary CT calcium scan, Calcium scan test, Cardiac CT for calcium scoring, Cardiac CT scan, Heart CT scan

A coronary calcium scan is a CT scan of your heart that detects and measures the amount of calcium in the walls of your coronary arteries. Buildup of calcium, or calcifications, are a sign of atherosclerosis, coronary heart disease, or coronary microvascular disease.

1. https://www.nhlbi.nih.gov/health-topics/coronary-calcium-scan [accessed on Apr 09, 2020]
2. https://medlineplus.gov/ency/article/007344.htm [accessed on Apr 09, 2020]

Additional Materials (13)

DENSITY OF CORONARY ARTERY CALCIUM MAY HELP PREDICT RISK OF HEART ATTACK AND STROKE

Video by TheJAMAReport/YouTube

Calcium Score: Detecing Heart Disease EARLY!

Video by HeartSmartMD/YouTube

Detecting Heart Disease with Calcium Score - Scottsdale Medical Imaging

Video by SMILLTD/YouTube

Coronary Artery Disease

Image by TheVisualMD

Coronary catheterization

Coronary angiography of a critical sub-occlusion of the common trunk of the left coronary artery and the circumflex artery. (See arrows).

Image by Maria A Pantaleo, Anna Mandrioli, Maristella Saponara, Margherita Nannini, Giovanna Erente, Cristian Lolli and Guido Biasco

Living With Coronary Heart Disease

Low magnification micrograph of the distal right coronary artery with complex atherosclerosis and luminal narrowing : Micrograph of the distal right coronary artery, which supplies the heart, showing significant atherosclerosis and marked luminal narrowing (the space where blood can flow is narrower than normal).

Image by Nephron

Atherosclerosis

Illustration of Atherosclerosis and plaque that may lead to Angina.

Image by OpenStax College

Coronary Calcium Scan

Coronary Calcium Scan. Figure A shows the position of the heart in the body and the location and angle of the coronary calcium scan image. Figure B is a coronary calcium scan image showing calcifications in a coronary artery.

Image by NHLBI/NIH

Dr Henson's Calcium Score

Video by Executive Health/YouTube

What Does Cardiac CT (Computer Tomography) Show?

The illustration shows the major signs and symptoms of coronary heart disease.

Image by National Heart Lung and Blood Insitute (NIH)

Angiograms Can Detect Blockages

If someone has symptoms or risk factors for heart disease, a doctor can use different tests to evaluate heart function and detect blockages. Electrocardiograms, or EKGs, can show if the heart has been damaged. Exercise tolerance tests, also know as stress tests, measure the heart's ability to supply the body with oxygen. But for pinpointing blockages, X-ray images called angiograms are essential.

Image by TheVisualMD

Chest Radiograph

Medical X-rays

Image by Nevit Dilmen

What To Expect During a Coronary Calcium Scan

3D reconstruction of the thin multislice CT, covering human heart and lungs

Image by Semnic

2:00

DENSITY OF CORONARY ARTERY CALCIUM MAY HELP PREDICT RISK OF HEART ATTACK AND STROKE

TheJAMAReport/YouTube

1:37

Calcium Score: Detecing Heart Disease EARLY!

HeartSmartMD/YouTube

3:51

Detecting Heart Disease with Calcium Score - Scottsdale Medical Imaging

SMILLTD/YouTube

Coronary Artery Disease

TheVisualMD

Coronary catheterization

Maria A Pantaleo, Anna Mandrioli, Maristella Saponara, Margherita Nannini, Giovanna Erente, Cristian Lolli and Guido Biasco

Living With Coronary Heart Disease

Nephron

Atherosclerosis

OpenStax College

Coronary Calcium Scan

NHLBI/NIH

5:59

Dr Henson's Calcium Score

Executive Health/YouTube

What Does Cardiac CT (Computer Tomography) Show?

National Heart Lung and Blood Insitute (NIH)

Angiograms Can Detect Blockages

TheVisualMD

Chest Radiograph

Nevit Dilmen

What To Expect During a Coronary Calcium Scan

Semnic

Cardiac MRI

Cardiac MRI Test

Also called: Heart MRI, Cardiovascular Magnetic Resonance Imaging, CMR, Cardiac MRI Scan

A cardiac MRI (magnetic resonance imaging) is an imaging test that uses radio waves, magnets, and a computer to create detailed pictures of your heart. The test can provide detailed information on the type and severity of heart disease to help diagnose and treat heart problems.

Cardiac MRI Test

Also called: Heart MRI, Cardiovascular Magnetic Resonance Imaging, CMR, Cardiac MRI Scan

A cardiac MRI (magnetic resonance imaging) is an imaging test that uses radio waves, magnets, and a computer to create detailed pictures of your heart. The test can provide detailed information on the type and severity of heart disease to help diagnose and treat heart problems.

{"label":"Cardiac MRI reference range","scale":"lin","step":0.25,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"A normal cardiac MRI means no abnormalities have been found in the heart anatomy, function, and tissue composition.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"An abnormal cardiac MRI may reveal any of the following: blockage in the coronary (heart) arteries, structural problems of the heart, or damage to the heart muscle among other things.","conditions":["Arrhythmias","Aortic aneurysm","Atherosclerosis","Bradycardia","Cardiac tumor","Cardiomyopathy","Congenital heart disease","Coronary artery disease","Heart attack","Heart failure","Brugada syndrome","Long QT syndrome","Pericarditis","Spontaneous coronary artery dissection","Valvular heart disease"]}],"hideunits":true,"value":0.5}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
A normal cardiac MRI means no abnormalities have been found in the heart anatomy, function, and tissue composition.
Related conditions
Cardiac MRI is a common test. It's used to diagnose and assess many diseases and conditions, including:
- Coronary heart disease
- Damage caused by a heart attack
- Heart failure
- Heart valve problems
- Congenital heart defects (heart defects present at birth)
- Pericarditis (a condition in which the membrane, or sac, around your heart is inflamed)
- Cardiac tumors
Cardiac MRI can help explain results from other tests, such as x rays and computed tomography scans (also called CT scans).
Doctors sometimes use cardiac MRI instead of invasive procedures or tests that involve radiation (such as x rays) or dyes containing iodine (these dyes may be harmful to people who have kidney problems).
You'll be asked to fill out a screening form before having cardiac MRI. The form may ask whether you've had any previous surgeries. It also may ask whether you have any metal objects or medical devices (like a cardiac) in your body.
Some implanted medical devices, such as man-made heart valves and coronary stents, are safe around the MRI machine, but others are not. For example, the MRI machine can:
- Cause implanted cardiac pacemakers and defibrillators to malfunction.
- Damage cochlear (inner-ear) implants. Cochlear implants are small, electronic devices that help people who are deaf or who can't hear well understand speech and the sounds around them.
- Cause brain aneurysm (AN-u-rism) clips to move as a result of the MRI's strong magnetic field. This can cause severe injury.
Talk to your doctor or the MRI technician if you have concerns about any implanted devices that may interfere with the MRI.
Your doctor will let you know if you shouldn't have a cardiac MRI because of a medical device. If so, consider wearing a medical ID bracelet or necklace or carrying a medical alert card that states that you shouldn't have an MRI.
If you're pregnant, make sure your doctor knows before you have an MRI. No harmful effects of MRI during pregnancy have been reported; however, more research on the safety of MRI during pregnancy is needed.
Your doctor or technician will tell you whether you need to change into a hospital gown for the test. Don't bring hearing aids, credit cards, jewelry and watches, eyeglasses, pens, removable dental work, or anything that's magnetic near the MRI machine.
Tell your doctor if being in a fairly tight or confined space causes you anxiety or fear. If so, your doctor might give you medicine to help you relax. Your doctor may ask you to fast (not eat) for 6 hours before you take this medicine on the day of the test.
Some newer cardiac MRI machines are open on all sides. If you're fearful in tight or confined spaces, ask your doctor to help you find a facility that has an open MRI machine.
Your doctor will let you know whether you need to arrange for a ride home after the test.
The doctor supervising your scan will provide your doctor with the results of your cardiac MRI. Your doctor will discuss the findings with you.
Cardiac MRI can reveal various heart diseases and conditions, such as:
- Coronary heart disease
- Damage caused by a heart attack
- Heart failure
- Heart valve problems
- Congenital heart defects (heart defects present at birth)
- Pericarditis (a condition in which the membrane, or sac, around your heart is inflamed)
- Cardiac tumors
Cardiac MRI is a fast, accurate tool that can help diagnose a heart attack. The test does this by detecting areas of the heart that don't move normally, have poor blood supply, or are scarred.
Cardiac MRI also can show whether any of the coronary arteries are blocked. A blockage prevents your heart muscle from getting enough oxygen-rich blood, which can lead to a heart attack.
Currently, coronary angiography is the most common procedure for looking at blockages in the coronary arteries. Coronary angiography is an invasive procedure that uses x rays and iodine-based dye.
Researchers have found that cardiac MRI can sometimes replace coronary angiography, avoiding the need to use x-ray radiation and iodine-based dye. This use of MRI is called MR angiography (MRA).
Echocardiography (echo) is the main test for diagnosing heart valve disease. However, your doctor also might recommend cardiac MRI to assess the severity of valve disease.
A cardiac MRI can confirm information about valve defects or provide more detailed information about heart valve disease.
This information can help your doctor plan your treatment. An MRI also might be done before heart valve surgery to help your surgeon plan for the surgery.
Researchers are finding new ways to use cardiac MRI. In the future, cardiac MRI may replace x rays as the main way to guide invasive procedures such as cardiac catheterization.
Also, improvements in cardiac MRI will likely lead to better methods for detecting heart disease in the future.
1. https://www.nhlbi.nih.gov/health-topics/cardiac-mri [accessed on Aug 25, 2021]
2. https://medlineplus.gov/ency/article/003795.htm [accessed on Feb 25, 2022]
3. Bluemke, David A.. Reference ranges (“normal values”) for cardiovascular magnetic resonance (CMR) in adults and children: 2020 update. Journal of Cardiovascular Magnetic Resonance. Dec 14, 2020. doi:10.1186/s12968-020-00683-3 [accessed on Apr 03, 2024]
4. CMR Normal Values [accessed on Apr 03, 2024]

Additional Materials (32)

What To Expect During Cardiac MRI

Aberrant subclavian artery in MRI / MRA. Maximum intension projection.

Image by National Heart, Lung and Blood Institute / NIH

MRI of Aneurysm within Chest lateral cross section

Specialized test, like a computerized tomography (CT) scan or a magnetic resonance imaging (MRI) scan, may be needed to confirm the presence of an aneurysm.

Image by TheVisualMD

Enlarged right ventricle with poor function in a patient with repaired tetralogy of Fallot by CMR

Enlarged right ventricle with poor function in a patient with repaired tetralogy of Fallot by CMR

Image by Jccmoon (talk)

Having a Cardiac MRI scan

Video by Birmingham Women's and Children's NHS Trust/YouTube

MRI and CT Scan the differences

Video by Vijayan Ragavan/YouTube

British Heart Foundation - Your guide to a cardiac MRI, heart disease test

Video by British Heart Foundation/YouTube

Seeing Inside the Heart with MRI

Video by Mayo Clinic/YouTube

Cardiac MRI flow visualization

Cardiac MRI flow visualization

Image by Vasanawala

Cardiac MRI streamlines

Cardiac MRI streamlines visualization

Image by Vasanawala

Aberrant subclavian artery in MRI / MRA. Maximum intension projection.

Aberrant subclavian artery in MRI / MRA. Maximum intension projection.

Image by Hellerhoff

Spectrum of Medical Imaging

This composite image was created in recognition of The Society of Photo-Optical Instrumentation Engineers (SPIE) designation of 2015 as the “International Year of Light.” Medical imaging scientists and engineers contribute to the quest for the improved human condition by providing imaging that spans the entire usable electro-magnetic spectrum (seen at bottom). From the humblest of beginnings with simple magnification of objects and focusing with lenses, to the biological observation of cells with rudimentary microscopes in the visible spectrum, medical imaging today has both extended away from the visible spectrum towards longer and shorter wavelengths (low and high energies) and exploited the hyperspectral nature of the visible which was once considered “commonplace” or rudimentary. Considering yet a different cross-section through the various imaging modalities across the spectrum, the medically useful information gained spans anatomic, physiologic, and molecular regimes. Systems and algorithms have been developed as single-modality acquisition systems, and also as multiple-modalities with conjoint reconstruction, each informing the other in the quest to optimize image quality and information content. In addition, the role of light-based technologies in enabling advanced computations in tomographic reconstructions, computer-aided diagnosis, machine learning (neural networks, deep learning, etc.) , and 3D visualizations as well as in data-enriched storage of medical images has further extended the potential knowledge “seen” through imaging. The breadth of the electromagnetic spectrum offers limitless opportunities for improvement and inquiry, in our quest to answer human life’s difficult questions. This montage was first published on the cover of the SPIE’s Journal of Medical Imaging (July-Sept. 2015, vol. 3, no. 3) and is but a small tribute to the multitude of medical imaging scientists who have contributed to the wealth of new knowledge as we interrogate the human condition. The gray-scale whole body images (from Left to Right) are acquired from longer wavelength modalities to shorter wavelength modalities spanning the (currently) usable electromagnetic spectrum. The background images include: a coronal Magnetic Resonance Image (MRI) T2 weighted image slice, a posterior surface Infra Red (IR) heat map, a coronal non-contrast Computed Tomography (CT) slice, and a coronal 18F-fluoro-deoxyglucose Positron Emission Tomography (FDG-PET) slice. The selection of color inset images includes (from Top-to-Bottom, then Left to Right): [1] diffusion tensor magnetic resonance imaging (MRI) used to image long white matter tracts within and around the human brain illustrating neuronal connectivity (coloring refers to bluish=vertical direction; green=horizontal A-P direction; red=horizontal lateral direction) (courtesy of Arthur Toga, PhD); [2] registered and superimposed coronal proton-MRI (gray-scale) and a hyper polarized 129Xe ventilation MRI scan (color scale) within the same patient’s lungs, prior to their receiving a bronchial stent (courtesy of Bastiaan Driehuys, PhD); [3] coronal slice through a microwave-based image reconstruction of the Debye parameter ε (epsilon) in a heterogeneously dense human breast phantom (courtesy of Susan Hagness, PhD); [4] juxtaposed optical image of the retina and vertical and horizontal Optical Coherence Tomograph (OCT) slices showing pigmentosa retinopathy (courtesy of Jean-Michel Muratet, MD); [5] functional 3-D photoacoustic imaging of melanoma (gray scale) in vivo, surrounded by highly optically absorptive blood vessels (red) (courtesy of Lihong Wang, PhD); [6] optical micrograph of HeLa cells stained for microtubules (blue) and co-stained with DAPI for actin visualization (red); HeLa cells are the world's first stem cell line, originally derived from the aggressive cervical cancer cells of Henrietta Lacks (courtesy Tom Deerinck/NCMIR); [7] visualization of the pelvis highlighting the colon, which is imaged with contrast x-ray computed tomography (CT), and after digital surface rendering can be used in virtual colonoscopy, thus avoiding a physical visible light-based colonoscopy; [8] registered and fused sagittal 99mTc-sestamibi dedicated molecular single photon emission computed tomography (SPECT, heat color scale) and low-dose CT slice (gray scale) of a patient’s uncompressed, pendant breast containing two surgically confirmed DCIS loci in the posterior breast (courtesy of Martin Tornai, PhD); [9] classic, early x-radiograph of Wilhelm Röntgen’s wife’s hand (adapted from http://en.wikipedia.org/wiki/100_Photographs_that_Changed_the_World); [10] transverse pelvic CT (gray scale) with multiple superimposed simulated x-ray photon radiotherapy beams, and their cumulative 20Gy (red) deposited dose isocontours at the focus of a tumor (courtesy of Paul Read, MD, PhD); [11] false-colored scanning electron micrograph of human immunodeficiency virus (HIV) particles (yellow) infecting a human H9 T-cell (turquoise) (adapted from http://biosingularity.com/category/infection/); [12] transverse 18F-dopa positron emission tomography (PET) slice through a Parkinson patient’s brain showing decreased in vivo quantitative uptake in the right caudate and putamen (courtesy of Christaan Schiepers, MD, PhD); [13] registered and fused transverse head CT (gray scale) and registered superimposed PET image (color) of a patient immediately after radio-therapeutic proton irradiation showing endogenously created 15O-positron emitter (2 min half-life) within the nasopharyngeal tumor focus (courtesy of Kira Grogg, PhD). [14] transverse (long axis) cardiac 99mTc-sestamibi SPECT slice illustrating thinned myocardial apical wall in a procedure performed thousands of times daily around the world (adapted from www.medscape.com). These images are but a small sampling of the breadth of the spectrum of light that is currently being investigated the world over by passionate scientists and engineers on a quest for the betterment of the human condition. All contributors for these images used herein have given their permission for their use, and are graciously thanked.

Image by Martin Tornai

Cardiac Cycle

CG Animated Human Heart cut section showing the atria, ventricles and valves, synced with wiggers diagram.

Image by DrJanaOfficial/Wikimedia

Magnetic Resonance Angiography

Figure A shows the heart's position in the body and the location and angle of the MRI pictures shown in figure C. Figure B is an MRI angiogram, which is sometimes used instead of a standard angiogram. Figure C shows MRI pictures of a normal left ventricle (left image), a left ventricle damaged from a heart attack (middle image), and a left ventricle that isn't getting enough blood from the coronary arteries (right image).

Image by National Heart Lung and Blood Institute (NIH)

Cardiac magnetic resonance imaging perfusion

Animated sagittal MRI slice of my beating heart

Image by Bionerd

Cardiac magnetic resonance imaging perfusion

Animated image of an MRI of the heart, showing a large myxoma plunging to and fro from atrium to ventricle across the mitral valve.

Image by Jccmoon at English Wikipedia

Low-field MRI system for cardiac and lung imaging

Video by NHLBI/YouTube

Annual report : National Institutes of Health. National Heart, Lung, and Blood Advisory Council

At head of title, 1976: National Heart, Blood Vessel, Lung, and Blood Program Title varies slightly Reports describe the activities of the National Heart, Lung, and Blood Institute Description based on: 9th (Sept. 1981) Subjects: National Heart, Lung, and Blood Institute; National Heart, Lung, and Blood Advisory Council; Heart; Heart; Lungs; Lungs; Blood; Blood; Cardiology; Cardiovascular Diseases; Hematology; Lung Diseases

Document by National Heart, Lung, and Blood Advisory Council National Heart, Lung, and Blood Institute. cn /Wikimedia

Cardiac magnetic resonance Arrhythmogenic right ventricular dysplasia

A short axis view of the heart showing a cine cardiac magnetic resonance. In this case, the scan demonstrates features of Arrhythmogenic right ventricular dysplasia with fatty infiltration of the left and right ventricles.

Image by Jccmoon at English Wikipedia/Wikimedia

Cardiac MRI vector

Cardiac MRI vector visualization

Image by Vasanawala/Wikimedia

Cardiac MRI: What you should know if your doctor orders a cardiac MRI

Video by Cleveland Clinic/YouTube

Tests and Procedures~Cardiac MRI

Video by CardioSmart/YouTube

Cardiac MRI

Video by MRI Michigan/YouTube

Indications for Cardiac Magnetic Resonance Imaging

Video by Medmastery/YouTube

Seeing Inside the Heart With MRI - Mayo Clinic

Video by Mayo Clinic/YouTube

Cardiac Stress Perfusion MRI Scan

Video by UHP_NHS/YouTube

New Cardiac MRI Leads to Better Diagnosis

Video by NationwideChildrens/YouTube

PET/MR

Hybrid device for PET/MR diagnostics with a magnetic field strength of 3 Tesla.

Image by Tomáš Vendiš/Wikimedia

Sensitive content

This media may include sensitive content

John survived death: Cardiopulmonary rehabilitation

John Boudreaux is a colonel in the U.S. Air Force. In 2016, he suffered a critical sudden cardiac arrest. He was dead for several minutes. Less than 6% of out-of-hospital cardiac arrest victims survive the trip to the hospital. John's doctors gave him less than 1%. Today, as a group commander at Cannon Air Force Base, New Mexico, he bears the scars that remind him for every one of him, there are 99 others buried in the ground. (U.S. Air Force photo by Senior Airman Lane T. Plummer)

Image by U.S. Air Force photo by Senior Airman Lane T. Plummer

Lp-PLA2, Coronary heart disease

Coronary heart disease is the leading cause of death for both men and women. There is no single biomarker that can perfectly predict a person's risk of heart disease; half of all people who suffer heart attacks have normal cholesterol. This is why researchers have developed additional biomarkers for heart disease, such as Lp-PLA2 (or lipoprotein-associated phospholipase A2), an enzyme linked to the inflammation of blood vessels. Individuals with high levels of Lp-PLA2 are at much higher risk of heart attack and stroke even if their cholesterol levels are normal.

Image by TheVisualMD

Coronary Artery Blockage

This video shows blockage that can occur within coronary arteries of the heart. Coronary arteries is a network of blood vessels that delivers the heart its own supply of blood. Here, the video reveals an angiogram of a patient showing blockages in the 4 coronary arteries.

Image by TheVisualMD

Coronary catheterization

Representative Reconstructed Images of CTO Lesions at the Left Anterior Descending Coronary Artery (LAD) and Right Coronary Artery (RCA).1A, 1D: Coronary angiography (CAG) image; 1B, 1E: Multiplanar reconstruction images; 1C, 1F: Three-dimensional volume rendering (Tree) image.

Image by Xinkai QuWeiyi FangKaizheng GongJianding YeShaofeng GuanRuogu LiYingjia XuYan ShenMin ZhangHua LiuWenhui Xie

Woman Suffering Headache

Woman Suffering Headache

Image by TheVisualMD

What To Expect During Cardiac MRI

National Heart, Lung and Blood Institute / NIH

MRI of Aneurysm within Chest lateral cross section

TheVisualMD

Enlarged right ventricle with poor function in a patient with repaired tetralogy of Fallot by CMR

Jccmoon (talk)

3:55

Having a Cardiac MRI scan

Birmingham Women's and Children's NHS Trust/YouTube

5:35

MRI and CT Scan the differences

Vijayan Ragavan/YouTube

3:41

British Heart Foundation - Your guide to a cardiac MRI, heart disease test

British Heart Foundation/YouTube

1:21

Seeing Inside the Heart with MRI

Mayo Clinic/YouTube

Cardiac MRI flow visualization

Vasanawala

Cardiac MRI streamlines

Vasanawala

Aberrant subclavian artery in MRI / MRA. Maximum intension projection.

Hellerhoff

Spectrum of Medical Imaging

Martin Tornai

Cardiac Cycle

DrJanaOfficial/Wikimedia

Magnetic Resonance Angiography

National Heart Lung and Blood Institute (NIH)

Cardiac magnetic resonance imaging perfusion

Bionerd

Cardiac magnetic resonance imaging perfusion

Jccmoon at English Wikipedia

0:33

Low-field MRI system for cardiac and lung imaging

NHLBI/YouTube

Annual report : National Institutes of Health. National Heart, Lung, and Blood Advisory Council

National Heart, Lung, and Blood Advisory Council National Heart, Lung, and Blood Institute. cn /Wikimedia

Cardiac magnetic resonance Arrhythmogenic right ventricular dysplasia

Jccmoon at English Wikipedia/Wikimedia

Cardiac MRI vector

Vasanawala/Wikimedia

9:32

Cardiac MRI: What you should know if your doctor orders a cardiac MRI

Cleveland Clinic/YouTube

4:33

Tests and Procedures~Cardiac MRI

CardioSmart/YouTube

1:05

Cardiac MRI

MRI Michigan/YouTube

7:27

Indications for Cardiac Magnetic Resonance Imaging

Medmastery/YouTube

1:47

Seeing Inside the Heart With MRI - Mayo Clinic

Mayo Clinic/YouTube

4:18

Cardiac Stress Perfusion MRI Scan

UHP_NHS/YouTube

2:40

New Cardiac MRI Leads to Better Diagnosis

NationwideChildrens/YouTube

PET/MR

Tomáš Vendiš/Wikimedia

Sensitive content

This media may include sensitive content

John survived death: Cardiopulmonary rehabilitation

U.S. Air Force photo by Senior Airman Lane T. Plummer

Lp-PLA2, Coronary heart disease

TheVisualMD

Coronary Artery Blockage

TheVisualMD

Coronary catheterization

Xinkai QuWeiyi FangKaizheng GongJianding YeShaofeng GuanRuogu LiYingjia XuYan ShenMin ZhangHua LiuWenhui Xie

Woman Suffering Headache

TheVisualMD

Cardiac CT

Cardiac CT Scan

Also called: Cardiac Computed Tomography, Cardiac Computed Axial Tomography Scan, Cardiac CAT Scan, Heart CT Scan, Coronary CT Angiography, CT Angiography

A cardiac CT scan is an imaging test that uses X-rays to take many detailed pictures of your heart and its blood vessels. This test can help diagnose or evaluate ischemic heart disease, calcium buildup in the coronary arteries, problems with the aorta, problems with heart function and valves, and pericardial disease.

Cardiac CT Scan

Also called: Cardiac Computed Tomography, Cardiac Computed Axial Tomography Scan, Cardiac CAT Scan, Heart CT Scan, Coronary CT Angiography, CT Angiography

A cardiac CT scan is an imaging test that uses X-rays to take many detailed pictures of your heart and its blood vessels. This test can help diagnose or evaluate ischemic heart disease, calcium buildup in the coronary arteries, problems with the aorta, problems with heart function and valves, and pericardial disease.

A cardiac CT scan is a painless imaging test that uses x rays to take many detailed pictures of your heart and its blood vessels. Computers can combine these pictures to create a three-dimensional (3D) model of the whole heart.
This imaging test can help doctors detect or evaluate ischemic heart disease, calcium buildup in the coronary arteries, problems with the aorta, problems with heart function and valves, and pericardial disease. This test also may be used to monitor the results of coronary artery bypass grafting or to follow up on abnormal findings from earlier chest x rays. Different CT scanners are used for different purposes. A multidetector CT is a very fast type of CT scanner that can produce high-quality pictures of the beating heart and can detect calcium or blockages in the coronary arteries. An electron beam CT scanner also can show calcium in coronary arteries.
Many x-ray pictures are taken during a cardiac CT scan. A computer puts the pictures together to make a three-dimensional (3D) picture of the whole heart. This picture shows the inside of the heart and the structures that surround the heart.
Doctors use cardiac CT to detect or evaluate:
- Coronary heart disease (CHD). In CHD, a waxy substance called plaque narrows the coronary arteries and limits blood flow to the heart. Contrast dye might be used during a cardiac CT scan to show whether the coronary arteries are narrow or blocked. When contrast dye is used, the test is called a coronary CT angiography, or CTA.
- Calcium buildup in the walls of the coronary arteries. This type of CT scan is called a coronary calcium scan. Calcium in the coronary arteries may be an early sign of CHD.
- Problems with the aorta. The aorta is the main artery that carries oxygen-rich blood from the heart to the body. Cardiac CT can detect two serious problems in the aorta:
  Aneurysm (AN-u-rism). An aneurysm is a diseased area of a blood vessel wall that bulges out. An aneurysm can be life threatening if it bursts.
  Dissection. A dissection is a split in one or more layers of the artery wall. The split causes bleeding into and along the layers of the artery wall. This condition can cause pain and may be life threatening.
- A pulmonary embolism (PE). A PE is a sudden blockage in a lung artery, usually due to a blood clot.
- Problems in the pulmonary veins. The pulmonary veins carry blood from the lungs to the heart. Problems with these veins may lead to an irregular heart rhythm called atrial fibrillation (AF). The pictures that cardiac CT creates of the pulmonary veins can help guide procedures used to treat AF.
- Problems with heart function and heart valves. In some cases, doctors may recommend cardiac CT instead of echocardiography or cardiac MRI (magnetic resonance imaging) to look for problems with heart function or heart valves.
- Pericardial disease. This is a disease that occurs in the pericardium, the sac around your heart. Cardiac CT can create clear, detailed pictures of the pericardium.
- Results of coronary artery bypass grafting (CABG). In CABG, arteries from other areas in your body are used to bypass (that is, go around) narrow coronary arteries. A CT scan can help determine whether the grafted arteries remain open after the surgery.
Doctors also might recommend cardiac CT scans before or after other heart procedures, such as cardiac resynchronization therapy. A CT scan can help your doctor pinpoint the areas of the heart or blood vessels where the procedure should be done. The scan also can help your doctor check your heart after the procedure.
Because the heart is in motion, a fast type of CT scanner, called multidetector computed tomography (MDCT), might be used to take high-quality pictures of the heart. MDCT also might be used to detect calcium in the coronary arteries.
Another type of CT scanner, called electron-beam computed tomography (EBCT), also is used to detect calcium in the coronary arteries.
Your doctor will tell you how to prepare for the cardiac CT scan. He or she may tell you to avoid caffeine and not eat anything for 4 hours before the scan. You’re usually allowed to drink water before the test.
If you take medicine for diabetes, talk with your doctor about whether you'll need to change how you take it on the day of your cardiac CT scan.
Tell your doctor whether you:
- Are pregnant or might be pregnant. Even though cardiac CT uses a low radiation dose, the x rays may harm your fetus.
- Have asthma or kidney problems or are allergic to any medicines, iodine, or shellfish. These problems can increase your chance of having an allergic reaction to the contrast dye that's sometimes used during cardiac CT.
A technician will ask you to remove your clothes above the waist and wear a hospital gown. You also will be asked to remove any jewelry from around your neck or chest.
If you don't have asthma, COPD (chronic obstructive pulmonary disease), or heart failure, your doctor may give you medicine to slow your heart rate. A slower heart rate will help produce better quality pictures. The medicine will be given by mouth or injected into a vein.
1. https://www.nhlbi.nih.gov/health-topics/cardiac-ct-scan [accessed on Aug 25, 2021]

Additional Materials (8)

5:04

Cardiac CT scan

UHP_NHS/YouTube

4:59

Having a Cardiac CT Scan in Hospital

Oxford AHSN/YouTube

2:00

DENSITY OF CORONARY ARTERY CALCIUM MAY HELP PREDICT RISK OF HEART ATTACK AND STROKE

TheJAMAReport/YouTube

1:37

Calcium Score: Detecing Heart Disease EARLY!

HeartSmartMD/YouTube

5:59

Dr Henson's Calcium Score

Executive Health/YouTube

Coronary Calcium Scan

NHLBI/NIH

Human Heart

TheVisualMD

Computed tomography of the heart

Scheffel H, Alkadhi H, Plass A, Vachenauer R, Desbiolles L, Gaemperli O, Schepis T, Frauenfelder T, Schertler T, Husmann L, Grunenfelder J, Genoni M, Kaufmann PA, Marincek B, Leschka S.

Cardiac Cath

Cardiac Catheterization Test

Also called: Cardiac Cath, Heart Cath

Cardiac catheterization is an exam in which a flexible tube called a catheter is inserted into a blood vessel in the arm, groin, upper thigh, or neck. It is used to take a close look at the heart to identify problems and perform other tests or procedures on your heart.

Cardiac Catheterization Test

Also called: Cardiac Cath, Heart Cath

Cardiac catheterization is an exam in which a flexible tube called a catheter is inserted into a blood vessel in the arm, groin, upper thigh, or neck. It is used to take a close look at the heart to identify problems and perform other tests or procedures on your heart.

{"label":"Coronary angiogram reference range","scale":"lin","step":0.25,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"A normal coronary angiogram means that the heart and heart valves look normal. It also shows that the examined blood vessels look normal, blood flow is not reduced, and there is no narrowing, blockage, bulging (aneurysm), or large buildup of plaque.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"An abnormal coronary angiogram may show that the heart or the heart valves look abnormal. It may also reveal that one or more blood vessels are partially or completely blocked, an aneurysm or tear (dissection) in the aorta, a narrow spot in an artery, or an abnormal pattern of blood vessels.","conditions":["Aneurysm","Arrhythmia","Atherosclerosis","Holes in the heart","Ischemic heart disease"]}],"hideunits":true,"value":0.5}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
A normal coronary angiogram means that the heart and heart valves look normal. It also shows that the examined blood vessels look normal, blood flow is not reduced, and there is no narrowing, blockage, bulging (aneurysm), or large buildup of plaque.
Related conditions
1. Cardiac Catheterization - What Is Cardiac Catheterization | NHLBI, NIH. Mar 24, 2022 [accessed on Apr 05, 2024]
2. Heart Health Tests: MedlinePlus. National Library of Medicine. Feb 28, 2017 [accessed on Apr 05, 2024]
3. Cardiac catheterization: MedlinePlus Medical Encyclopedia [accessed on Apr 05, 2024]
4. Cardiac catheterization. National Cancer Institute [accessed on Apr 05, 2024]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (6)

X-ray of the cardiac catheter examination

Werner Forßmann

7:15

Cardiac Catheterization Angiography PreOp Patient Education Engagement

PreOp.com Patient Engagement - Patient Education/YouTube

2:24

Cardiac Catheterization via Femoral Artery

Robinson Visual Science/YouTube

4:38

Preparing for a Cardiac Catheterization Procedure

Beaumont Health/YouTube

2:28

After Your Cardiac Catheterization | Beaumont Health

Beaumont Health/YouTube

7:23

Cardiac Catheterization: What You Can Expect

UTMedSchoolSA/YouTube

Nuclear Heart Scan

Nuclear Heart Scan

Also called: Nuclear Stress Test, Radionuclide Scan

A nuclear heart scan is an imaging test that uses special cameras and a radioactive substance called a tracer to create pictures of your heart. This imaging test can detect if blood is not flowing to parts of the heart and can diagnose coronary heart disease.

Nuclear Heart Scan

Also called: Nuclear Stress Test, Radionuclide Scan

A nuclear heart scan is an imaging test that uses special cameras and a radioactive substance called a tracer to create pictures of your heart. This imaging test can detect if blood is not flowing to parts of the heart and can diagnose coronary heart disease.

{"label":"Nuclear Heart Scan Reference Range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"A normal result indicates that the blood flow through the coronary arteries is probably normal, meaning that you were able to exercise as long as or longer than most people of your age and gender. You also did not have symptoms or changes in blood pressure, your ECG or the images of your heart that caused concern.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"Abnormal results may be due to reduced blood flow to a part of the heart or to scarring of the heart muscle due to a previous heart attack.","conditions":["Coronary artery disease"]}],"value":0.5}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
A normal result indicates that the blood flow through the coronary arteries is probably normal, meaning that you were able to exercise as long as or longer than most people of your age and gender. You also did not have symptoms or changes in blood pressure, your ECG or the images of your heart that caused concern.
Related conditions
1. https://www.nhlbi.nih.gov/health-topics/nuclear-heart-scan [accessed on Apr 09, 2020]
2. https://medlineplus.gov/ency/article/007201.htm [accessed on Apr 09, 2020]
3. https://www.radiologyinfo.org/en/info.cfm?pg=cardinuclear [accessed on Apr 09, 2020]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Additional Materials (13)

Nuclear stress test can detect more than blockages

Video by mcgwebcontent/YouTube

A Snapshot of Nuclear Imaging

Video by Lee Health/YouTube

Nuclear Stress Test

Nuclear medicine myocardial perfusion scan showing normal heart muscle with no defects.

Image by Sincefalastrum

Spectrum of Medical Imaging

This composite image was created in recognition of The Society of Photo-Optical Instrumentation Engineers (SPIE) designation of 2015 as the “International Year of Light.” Medical imaging scientists and engineers contribute to the quest for the improved human condition by providing imaging that spans the entire usable electro-magnetic spectrum (seen at bottom). From the humblest of beginnings with simple magnification of objects and focusing with lenses, to the biological observation of cells with rudimentary microscopes in the visible spectrum, medical imaging today has both extended away from the visible spectrum towards longer and shorter wavelengths (low and high energies) and exploited the hyperspectral nature of the visible which was once considered “commonplace” or rudimentary. Considering yet a different cross-section through the various imaging modalities across the spectrum, the medically useful information gained spans anatomic, physiologic, and molecular regimes. Systems and algorithms have been developed as single-modality acquisition systems, and also as multiple-modalities with conjoint reconstruction, each informing the other in the quest to optimize image quality and information content. In addition, the role of light-based technologies in enabling advanced computations in tomographic reconstructions, computer-aided diagnosis, machine learning (neural networks, deep learning, etc.) , and 3D visualizations as well as in data-enriched storage of medical images has further extended the potential knowledge “seen” through imaging. The breadth of the electromagnetic spectrum offers limitless opportunities for improvement and inquiry, in our quest to answer human life’s difficult questions. This montage was first published on the cover of the SPIE’s Journal of Medical Imaging (July-Sept. 2015, vol. 3, no. 3) and is but a small tribute to the multitude of medical imaging scientists who have contributed to the wealth of new knowledge as we interrogate the human condition. The gray-scale whole body images (from Left to Right) are acquired from longer wavelength modalities to shorter wavelength modalities spanning the (currently) usable electromagnetic spectrum. The background images include: a coronal Magnetic Resonance Image (MRI) T2 weighted image slice, a posterior surface Infra Red (IR) heat map, a coronal non-contrast Computed Tomography (CT) slice, and a coronal 18F-fluoro-deoxyglucose Positron Emission Tomography (FDG-PET) slice. The selection of color inset images includes (from Top-to-Bottom, then Left to Right): [1] diffusion tensor magnetic resonance imaging (MRI) used to image long white matter tracts within and around the human brain illustrating neuronal connectivity (coloring refers to bluish=vertical direction; green=horizontal A-P direction; red=horizontal lateral direction) (courtesy of Arthur Toga, PhD); [2] registered and superimposed coronal proton-MRI (gray-scale) and a hyper polarized 129Xe ventilation MRI scan (color scale) within the same patient’s lungs, prior to their receiving a bronchial stent (courtesy of Bastiaan Driehuys, PhD); [3] coronal slice through a microwave-based image reconstruction of the Debye parameter ε (epsilon) in a heterogeneously dense human breast phantom (courtesy of Susan Hagness, PhD); [4] juxtaposed optical image of the retina and vertical and horizontal Optical Coherence Tomograph (OCT) slices showing pigmentosa retinopathy (courtesy of Jean-Michel Muratet, MD); [5] functional 3-D photoacoustic imaging of melanoma (gray scale) in vivo, surrounded by highly optically absorptive blood vessels (red) (courtesy of Lihong Wang, PhD); [6] optical micrograph of HeLa cells stained for microtubules (blue) and co-stained with DAPI for actin visualization (red); HeLa cells are the world's first stem cell line, originally derived from the aggressive cervical cancer cells of Henrietta Lacks (courtesy Tom Deerinck/NCMIR); [7] visualization of the pelvis highlighting the colon, which is imaged with contrast x-ray computed tomography (CT), and after digital surface rendering can be used in virtual colonoscopy, thus avoiding a physical visible light-based colonoscopy; [8] registered and fused sagittal 99mTc-sestamibi dedicated molecular single photon emission computed tomography (SPECT, heat color scale) and low-dose CT slice (gray scale) of a patient’s uncompressed, pendant breast containing two surgically confirmed DCIS loci in the posterior breast (courtesy of Martin Tornai, PhD); [9] classic, early x-radiograph of Wilhelm Röntgen’s wife’s hand (adapted from http://en.wikipedia.org/wiki/100_Photographs_that_Changed_the_World); [10] transverse pelvic CT (gray scale) with multiple superimposed simulated x-ray photon radiotherapy beams, and their cumulative 20Gy (red) deposited dose isocontours at the focus of a tumor (courtesy of Paul Read, MD, PhD); [11] false-colored scanning electron micrograph of human immunodeficiency virus (HIV) particles (yellow) infecting a human H9 T-cell (turquoise) (adapted from http://biosingularity.com/category/infection/); [12] transverse 18F-dopa positron emission tomography (PET) slice through a Parkinson patient’s brain showing decreased in vivo quantitative uptake in the right caudate and putamen (courtesy of Christaan Schiepers, MD, PhD); [13] registered and fused transverse head CT (gray scale) and registered superimposed PET image (color) of a patient immediately after radio-therapeutic proton irradiation showing endogenously created 15O-positron emitter (2 min half-life) within the nasopharyngeal tumor focus (courtesy of Kira Grogg, PhD). [14] transverse (long axis) cardiac 99mTc-sestamibi SPECT slice illustrating thinned myocardial apical wall in a procedure performed thousands of times daily around the world (adapted from www.medscape.com). These images are but a small sampling of the breadth of the spectrum of light that is currently being investigated the world over by passionate scientists and engineers on a quest for the betterment of the human condition. All contributors for these images used herein have given their permission for their use, and are graciously thanked.

Image by Martin Tornai

Enlarged right ventricle with poor function in a patient with repaired tetralogy of Fallot by CMR

Enlarged right ventricle with poor function in a patient with repaired tetralogy of Fallot by CMR

Image by Jccmoon (talk)

Single-photon emission computed tomography

SPECT nuclear imaging of the heart, short axis views

Image by Patrick J. Lynch, medical illustrator; C. Carl Jaffe, MD, cardiologist

PET Scan in 3 views

PET Scan in 3 views

Image by TheVisualMD

PET Scan in 3 views

PET Scan in 3 views

Image by TheVisualMD

PET Scan in 3 views

PET Scan in 3 views

Image by TheVisualMD

What Does a Nuclear Heart Scan Show?

A SPECT slice of a patient's heart.

Image by Kieran Maher

Myocardial perfusion scan

Myocardial perfusion scan with thallium-201 for the rest images (bottom rows) and Tc-Sestamibi for the stress images (top rows). The myocardial perfusion scan plays a pivotal role in the noninvasive evaluation of coronary artery disease. The study not only identifies some patients who have coronary artery disease, it can also provide overall prognostic information or overall risk of adverse cardiac events for the patient, provided that the patient does not suffer from Three-Vessel disease, the most serious result of coronary artery disease..

Image by Uploaded by Myohan

Human Heart right anterior oblique

Heart right anterior oblique nuclear imaging view

Image by Patrick J. Lynch, medical illustrator

Cardiac Stress Test

The image shows a patient having a stress test. Electrodes are attached to the patient's chest and connected to an EKG (electrocardiogram) machine. The EKG records the heart's electrical activity. A blood pressure cuff is used to record the patient's blood pressure while he walks on a treadmill.

Image by National Heart Lung and Blood Institute

3:33

Nuclear stress test can detect more than blockages

mcgwebcontent/YouTube

2:09

A Snapshot of Nuclear Imaging

Lee Health/YouTube

Nuclear Stress Test

Sincefalastrum

Spectrum of Medical Imaging

Martin Tornai

Enlarged right ventricle with poor function in a patient with repaired tetralogy of Fallot by CMR

Jccmoon (talk)

Single-photon emission computed tomography

Patrick J. Lynch, medical illustrator; C. Carl Jaffe, MD, cardiologist

PET Scan in 3 views

TheVisualMD

PET Scan in 3 views

TheVisualMD

PET Scan in 3 views

TheVisualMD

What Does a Nuclear Heart Scan Show?

Kieran Maher

Myocardial perfusion scan

Uploaded by Myohan

Human Heart right anterior oblique

Patrick J. Lynch, medical illustrator

Cardiac Stress Test

National Heart Lung and Blood Institute

Stress Tests

Stress Tests

Also called: Cardiac Stress Test, Cardiac Diagnostic Test

Stress tests shows how well your heart works when it's pumping hard. They can find problems with blood flow to your heart muscle and other heart conditions. Reduced blood flow can be a sign of a serious heart disease.

Stress Tests

Also called: Cardiac Stress Test, Cardiac Diagnostic Test

Stress tests shows how well your heart works when it's pumping hard. They can find problems with blood flow to your heart muscle and other heart conditions. Reduced blood flow can be a sign of a serious heart disease.

Stress tests show how well your heart works when it's pumping hard. Some heart diseases are easier to find when your heart is working its hardest to pump blood through your body. So stress tests check your heart while you exercise on a treadmill or stationary bicycle. If you're not able to exercise, medicine can be used to make your heart work harder , as if you were exercising.
There are different types of stress tests. They all check:
- Blood flow in your heart
- Your blood pressure
- The rate and rhythm of your heartbeat
- The strength of the electrical signals that control your heartbeat
Some stress tests also take pictures of your heart at rest and when it's working hard. The pictures provide more detail about how your heart is working.
Stress tests are most often used to find the cause of symptoms that may be from a heart problem.
The tests can help diagnose certain heart conditions, including:
- Coronary artery disease (CAD)
- Angina
- Arrhythmia
- Heart failure
- Heart valve diseases
- Cardiomyopathy
Stress testing is also used:
- To find out how serious a known heart condition is, including the chance that you'll have a heart attack in the future.
- To help make treatment decisions for a heart condition.
You may need a stress test if you have symptoms that could be from a heart condition. Symptoms may include:
- Chest pain or discomfort without a known cause
- Shortness of breath
- Irregular or rapid heartbeat that may feel like a fluttering in your chest
- Feeling dizzy or lightheaded
You may also need a stress test to check your heart health if you:
- Have a heart condition with new or worsening symptoms.
- Are going to have surgery. Your health care provider may want to see if your heart is strong enough for the operation.
- Are being treated for heart disease. The test can show how much treatment is helping, including heart surgery.
- Have a high risk for heart disease. Your risk may be higher than normal if you have a family history of heart disease and/or certain conditions, such as diabetes, that are linked to heart disease.
- Plan to start an exercise program. If you have a heart condition or a high risk for a heart condition, a stress test can show what level of exercise is safe for you. (Always talk with your provider before starting any strenuous, new exercise.)
Stress tests may be done with or without imaging (pictures of your heart). The most common type of test is an exercise stress test. It doesn't include pictures. But the main steps of an exercise stress test are part of all stress tests:
- You'll have a blood pressure cuff on your arm to check your blood pressure.
- Electrodes will be placed on your body for an electrocardiogram test (also called EKG or ECG). Electrodes are small sensors that stick to your skin. Wires connect the electrodes to a computer or an EKG machine that records the electrical activity in your heart during the stress test.
- If you're unable to exercise: An intravenous (IV) line will be inserted into a vein in your arm. You'll get medicine through the IV. The medicine will make your heart work harder for 10 to 20 minutes while an EKG records your heart's electrical activity. Medicine can be used instead of exercise for all types of stress tests.
- If you can exercise: You'll walk on a treadmill or ride a stationary bicycle. On a treadmill, the speed will slowly increase. The treadmill may also tilt so you feel like you're walking uphill. On a bicycle, the resistance will slowly increase, so it's harder to pedal.
  You'll exercise for about 10 to 15 minutes until you reach a target heart rate based on your age and fitness level. But you may stop the test sooner if:
  
  You develop chest pain, shortness of breath, dizziness, fatigue or other symptoms
  The EKG shows a problem with your heart
- After all types of stress tests, you'll be monitored for 10-15 minutes or until your heart rate returns to normal.
Stress tests with pictures include stress echocardiograms, nuclear stress tests, and cardiac (heart) MRI stress tests. These tests have extra steps:
A stress echocardiogram or "echo" takes moving pictures of your heart using doppler ultrasound. The pictures show the size and shape of your heart and blood flow through your heart. Pictures will be taken before and after your heart has worked its hardest. You'll lie on your left side on a table as a provider moves an ultrasound device on your chest. If you exercise on a bicycle, the second set of pictures may be taken while you're pedaling.
A nuclear stress test takes pictures of your heart using a small amount of a radioactive substance called a "tracer" and a special camera that scans your heart. A provider injects the tracer into your bloodstream through an IV line that's placed in a vein. Your heart and blood vessels absorb the tracer, which makes them show up more clearly in the pictures.
Pictures are taken while you lie on a table before and after your heart has worked its hardest. After the test, the tracer naturally leaves your body in your urine (pee). Drinking lots of water will help remove it faster.
A cardiac MRI stress test takes the most detailed pictures of your heart using radio waves, magnets, and a computer. It is a newer test that's mostly used for very serious heart problems. For an MRI stress test:
- A provider may inject dye into your bloodstream through an IV line placed in your arm. Some cardiac MRIs, but not all, use dye to help show very small details on the pictures.
- Pictures of your heart may be taken before and after your heart has worked hard. To take the pictures, you'll lie on a table that slides into a large, tunnel-like MRI machine. You'll hear loud sounds as the machine takes pictures. If you're exercising for the test, you may use a treadmill near the MRI, or you may exercise while lying in the MRI machine using special devices to move your arms or legs.
1. Stress Tests: MedlinePlus Medical Test [accessed on Mar 09, 2023]

Exercise Tolerance Test

Exercise Tolerance Test

Also called: Treadmill Stress Testing, Exercise Stress Test, Cardiopulmonary Exercise Test, CPX Test

Exercise tolerance testing is a form of cardiac stress testing that uses treadmill exercise with electrocardiogram (EKG) and blood pressure monitoring. The test is used to determine a patient’s functional capacity, assess the probability and extent of coronary artery disease (CAD) as well as assess risks, prognosis and effects of therapy.

Exercise Tolerance Test

Also called: Treadmill Stress Testing, Exercise Stress Test, Cardiopulmonary Exercise Test, CPX Test

Exercise tolerance testing is a form of cardiac stress testing that uses treadmill exercise with electrocardiogram (EKG) and blood pressure monitoring. The test is used to determine a patient’s functional capacity, assess the probability and extent of coronary artery disease (CAD) as well as assess risks, prognosis and effects of therapy.

{"label":"VO2 max reference range","scale":"lin","step":0.1,"items":[{"flag":"abnormal","label":{"short":"Poor","long":"Poor","orientation":"horizontal"},"values":{"min":10,"max":30},"text":"As you get older, your VO2 max typically declines. All training improves your aerobic capacity, even slow, relaxed jogging.","conditions":[]},{"flag":"normal","label":{"short":"Good","long":"Good","orientation":"horizontal"},"values":{"min":30,"max":60},"text":"VO2 max refers to the maximum amount of oxygen that an individual can utilize during intense or maximal exercise. The greater your VO2 max, the more oxygen your body can consume and transport to your organs, muscles, and tissues, enabling you to have better endurance and performance for a given effort.","conditions":[]}],"units":[{"printSymbol":"(mL\/kg)\/min","code":"mL\/kg\/min","name":"milliliter per kilogram per minute"}],"hideunits":false,"value":45}[{"abnormal":0},{"normal":0}]
Use the slider below to see how your results affect your health.
(mL/kg)/min
30
Your result is Good.
VO2 max refers to the maximum amount of oxygen that an individual can utilize during intense or maximal exercise. The greater your VO2 max, the more oxygen your body can consume and transport to your organs, muscles, and tissues, enabling you to have better endurance and performance for a given effort.
Related conditions
- Before the test begins, your nurse or doctor will explain it to you. Feel free to ask questions and voice concerns at this time. When you understand what will happen, you will be asked to sign a consent for the test to be performed.
- To monitor your heart during exercise, adhesive patches, called electrodes, will be put on your chest. Your chest will be cleansed with alcohol and shaved in some areas (if necessary) before these electrodes are placed.
- You will be asked about symptoms you have had with exercise in the past. Describe, as completely as you can, any chest discomfort, breathing problems, lightheadedness or dizziness, fluttering in the chest, weakness, fatigue, or anything else you think may be relevant. Also, mention anything you feel while you are being prepared for the test.
- A nurse or doctor will be with you throughout the test. Your heart rate and rhythm and your blood pressure will be checked during the test.
- Generally, the treadmill’s pace and incline will increase every 3 minutes. It is important that you describe anything you feel as you exercise. If you become short of breath, the nurse may ask you to rate it as “mild,” “moderate,” or “severe.” If you have chest discomfort, you will be asked to describe it as best you can and rate it on a scale of 1 to 10 (1 is very mild; 10 is very severe). There is no right or wrong number. This helps your doctor know how you are doing and gives us a better way to compare how you feel before and after the test.
- Keep walking until you are told to stop or until you cannot walk any longer. Let the nurse know when you need to slow down. Keep walk-ing as the treadmill slows. Do not jump off.
- While you rest, your heart will continue to be monitored.
- Inform the doctor or nurse about any temporary or permanent condition that could affect your ability to move, walk, bear weight, or keep your balance. If possible, discuss this when you are first scheduled for the test. It is also important that the doctor and/or nurse conducting the test have this information.
- Carefully follow your doctor’s instructions about medications. Some medications should be stopped for 48 hours before the test; others should not be stopped. If you do not have clear instructions about all your medications (including those for your heart, blood pressure, or other medications), contact your doctor or nurse a few days before the test.
- Avoid caffeine, alcohol, and nicotine 8 hours before the test. Do not eat 2 hours before the test, and do not drink liquids 1 hour before the test. If your exercise test is combined with heart imaging (such as a thallium scan), follow the specific instructions for that test.
- Try to be as well rested as possible. You may need to reschedule the test if you feel unwell (for example, if you have a cold). If you do not feel you can give your maximum exercise effort, contact your nurse or doctor before the test.
- Wear loose, comfortable clothing with a separate top and bottom. Women should wear bras. Wear comfortable, flat shoes that will not slip off while you are walking.
After the procedure:
- You can eat and drink as usual.
- Depending on how you feel, you may go about your normal routine or take it easy if the test tired you.
- Do not take a hot shower for at least an hour after the test. Your blood vessels expand with exercise and need time to return to normal. A hot shower may expand them more, causing low blood pressure and dizziness.
1. Procedures/Diagnostic Tests. Exercise tolerance test. National Institutes of Health Clinical Center. [accessed on Dec 11, 2018]
2. Vilcant V, Zeltser R. Treadmill Stress Testing. [Updated 2018 Oct 27]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2018 Jan-. [accessed on Dec 11, 2018]
3. Am Fam Physician. 2017 Sep 1;96(5):293-299. Exercise Stress Testing: Indications and Common Questions. Garner KK, Pomeroy W, Arnold JJ. [accessed on Dec 11, 2018]
4. Am Fam Physician. 1999 Jan 15;59(2):401-10. Ordering and understanding the exercise stress test. Darrow MD. [accessed on Dec 11, 2018]
5. Harvard Men's Health. Cardiac exercise stress testing: What it can and cannot tell you. [accessed on Dec 11, 2018]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Stress Echocardiography

Stress Echocardiography

Also called: Echocardiography Stress Test, Stress Echo

Stress echocardiography, or echo, is a test that uses sound waves to create moving pictures of your heart. A stress echo is done as part of a stress test. Some heart problems, such as coronary heart disease, are easier to diagnose when the heart is working hard and beating fast.

Stress Echocardiography

Also called: Echocardiography Stress Test, Stress Echo

Stress echocardiography, or echo, is a test that uses sound waves to create moving pictures of your heart. A stress echo is done as part of a stress test. Some heart problems, such as coronary heart disease, are easier to diagnose when the heart is working hard and beating fast.

{"label":"Stress Echocardiography Reference Range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"normal","label":{"short":"Normal","long":"Normal","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"A normal test will most often mean that you were able to exercise as long as or longer than most people of your age and sex. You also did not have symptoms or concerning changes in blood pressure and your ECG. Your heart pictures show that all parts of your heart respond to increased stress by pumping harder.<br \/>\n<br \/>\nA normal result means that blood flow through the coronary arteries is probably normal.","conditions":[]},{"flag":"abnormal","label":{"short":"Abnormal","long":"Abnormal","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"An abnormal results may reveal reduced blood flow to a part of the heart or scarring of the heart muscle.<br \/>\n<br \/>\n","conditions":[]}],"value":0.5}[{"normal":0},{"abnormal":0}]
Use the slider below to see how your results affect your health.
Your result is Normal.
A normal result means that blood flow through the coronary arteries is probably normal.
Related conditions
1. https://medlineplus.gov/ency/article/007150.htm [accessed on Feb 23, 2022]
2. https://medlineplus.gov/lab-tests/stress-tests/ [accessed on Feb 23, 2022]
3. https://www.nhlbi.nih.gov/health-topics/echocardiography [accessed on Feb 23, 2022]

Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."

Treatment

Atheroma - Blocked Artery Due to Plaque

1

2

3

4

5

Blocked Artery / Balloon Angioplasty / Insertion of Stent

Interactive by TheVisualMD

How Is Coronary Heart Disease Treated?

Your treatment for coronary heart disease depends on how serious your symptoms are and any other health conditions you have. If you are experiencing a heart attack, for example, you may need emergency treatment. If your healthcare provider diagnoses you with coronary heart disease based on symptoms and tests, your treatment may include heart-healthy lifestyle changes in combination with medicine to prevent a heart attack or other health problems. Your provider will consider your 10-year risk calculation when deciding how best to treat your coronary heart disease.

Heart-healthy lifestyle changes

Your provider may recommend adopting lifelong heart-healthy lifestyle changes.

Aim for a healthy weight. Losing just 3% to 5% of your current weight can help you manage some coronary heart disease risk factors, such as high blood cholesterol and diabetes. Greater amounts of weight loss can also improve blood pressure readings.
Be physically active. Routine physical activity can help manage coronary heart disease risk factors such as high blood cholesterol, high blood pressure, or overweight and obesity. Before starting any exercise program, ask about what level of physical activity is right for you.
Heart-healthy eating may include the DASH (Dietary Approaches to Stop Hypertension) eating plan. A heart-healthy eating plan includes fruits, vegetables, and whole grains and limits saturated fats, sodium (salt), added sugars, and alcohol.
Manage stress. Learning how to manage stress, relax, and cope with problems can improve your emotional and physical health.
Quit smoking. Visit Smoking and Your Heart and Your Guide to a Healthy Heart. Although these resources focus on heart health, they include basic information about how to quit smoking. For free help and support to quit smoking, you can call the National Cancer Institute's Smoking Quitline at 1-877-44U-QUIT (1-877-448-7848). Talk to your doctor if you vape. There is scientific evidence that nicotine and flavorings found in vaping products may damage your heart and lungs.
Get enough good-quality sleep. The recommended amount for adults is 7 to 9 hours of sleep a day.

Medicines

Some medicines can reduce or prevent chest pain and manage other medical conditions that may contribute to your coronary heart disease.

ACE inhibitors and beta blockers help lower blood pressure and decrease how hard your heart is working.
Calcium channel blockers lower blood pressure by allowing blood vessels to relax.
Medicines to control blood sugar, such as empagliflozin, canagliflozin, and liraglutide, can help lower your risk for complications if you have coronary heart disease and diabetes.
Metformin controls plaque buildup if you have diabetes.
Nitrates, such as nitroglycerin, dilate your coronary arteries and relieve or prevent chest pain from angina.
Ranolazine treats coronary microvascular disease and the chest pain it may cause.
Statins or non-statin therapies control high blood cholesterol. You may need statin therapy if you have a higher risk of coronary heart disease or stroke or if you have diabetes and are between ages 40 and 75.
Non-statin therapies may be used to reduce cholesterol when statins do not lower cholesterol enough or cause side effects. Your healthcare provider may also prescribe non-statin drugs, such as ezetimibe, bile acid sequestrants, alirocumab, or evolocumab to lower cholesterol or gemfibrozil or fenofibrate to reduce triglycerides. They may also recommend omega-3 fatty acids as a supplement to your healthy diet.

Procedures

You may need a procedure or heart surgery to treat more serious coronary heart disease.

Percutaneous coronary intervention (PCI) opens coronary arteries that are narrowed or blocked by the buildup of plaque. A small mesh tube called a stent is usually implanted after PCI to prevent the artery from narrowing again.
Coronary artery bypass grafting (CABG) improves blood flow to the heart by using normal arteries from the chest wall and veins from the legs to bypass the blocked arteries. Surgeons typically use CABG to treat people who have severe coronary artery disease in multiple coronary arteries.
Transmyocardial laser revascularization or coronary endarterectomy treats severe angina linked to coronary heart disease when other treatments are too risky or did not work.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (16)

Treatment

Coronary Heart Disease and Heart Attack Treatment

Image by TheVisualMD

How Exercise Improves Heart Health – Healthfirst Healthy Living

Video by Healthfirst/YouTube

Be Active — Keep Your Heart Healthy!

Video by NHLBI/YouTube

Quit Smoking to Keep your Heart Healthy

Video by NHLBI/YouTube

Overweight and Heart Disease, Show Your Heart Some Love

Video by National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)/YouTube

How to eat a heart-healthy diet

Video by Sunnybrook Hospital/YouTube

Stress and Heart Disease

Video by Cleveland Clinic/YouTube

British Heart Foundation - High cholesterol and statins, Ali's story

Video by British Heart Foundation/YouTube

How do statins prevent heart attacks and strokes?

Video by British Heart Foundation/YouTube

Statins and Cholesterol

Video by Medicurio/YouTube

ACE Inhibitors

Video by EmpoweRN/YouTube

How do ACE inhibitors work?

Video by British Heart Foundation/YouTube

A Stent in Time Saves Lives

Video by Lee Health/YouTube

Heart - Stent Implantation Coronary Angioplasty PreOp® Patient Education HD

Video by PreOp.com Patient Engagement - Patient Education/YouTube

Stent Implantation Coronary Angioplasty Surgery PreOp® Patient Education

Video by PreOp.com Patient Engagement - Patient Education/YouTube

Animation - Coronary stent placement

Video by Mayo Clinic/YouTube

Treatment

TheVisualMD

1:55

How Exercise Improves Heart Health – Healthfirst Healthy Living

Healthfirst/YouTube

0:53

Be Active — Keep Your Heart Healthy!

NHLBI/YouTube

0:43

Quit Smoking to Keep your Heart Healthy

NHLBI/YouTube

1:05

Overweight and Heart Disease, Show Your Heart Some Love

National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)/YouTube

10:59

How to eat a heart-healthy diet

Sunnybrook Hospital/YouTube

1:05

Stress and Heart Disease

Cleveland Clinic/YouTube

1:31

British Heart Foundation - High cholesterol and statins, Ali's story

British Heart Foundation/YouTube

2:30

How do statins prevent heart attacks and strokes?

British Heart Foundation/YouTube

8:17

Statins and Cholesterol

Medicurio/YouTube

9:54

ACE Inhibitors

EmpoweRN/YouTube

2:12

How do ACE inhibitors work?

British Heart Foundation/YouTube

2:08

A Stent in Time Saves Lives

Lee Health/YouTube

5:44

Heart - Stent Implantation Coronary Angioplasty PreOp® Patient Education HD

PreOp.com Patient Engagement - Patient Education/YouTube

1:25

Stent Implantation Coronary Angioplasty Surgery PreOp® Patient Education

PreOp.com Patient Engagement - Patient Education/YouTube

0:14

Animation - Coronary stent placement

Mayo Clinic/YouTube

Complementary Health Approaches

Dietary Supplements

Image by Bru-nO

Complementary Health Approaches for Cardiovascular Disease

Cardiovascular diseases (diseases of the heart or blood vessels) are the number one cause of death in the United States. The most common type of cardiovascular disease is coronary artery disease, in which the blood vessels that supply blood to the heart become narrowed or blocked.

Several complementary health approaches have been studied to see whether they might help to control risk factors for cardiovascular disease, including high blood cholesterol and high blood pressure (hypertension).
- Some dietary supplements, such as garlic and soy, may have beneficial effects on cholesterol, but their effects are small compared to those of cholesterol-lowering medicines.
- There’s promising evidence that some complementary approaches, including meditation, tai chi, qi gong, and yoga as well as garlic, fish oil, flaxseed, and green or black tea, may have small beneficial effects on blood pressure.
- If you have high cholesterol or high blood pressure, follow the treatment plan prescribed by your health care provider. Don’t replace your conventional treatment with other products or practices. Talk with your health care provider about any complementary approaches you’re considering.
Chelation therapy using disodium EDTA (ethylene diamine tetra-acetic acid) is a controversial complementary health approach for coronary disease.
- A large-scale National Institutes of Health (NIH)-sponsored study of chelation for coronary disease, called TACT (for Trial to Assess Chelation Therapy), showed evidence of a beneficial effect, but only in people with diabetes who had already had at least one heart attack. Because this was the first clinical trial to show such a benefit, its results are not, by themselves, sufficient to support the routine use of chelation as a post-heart attack therapy in people with diabetes.
- A second NIH-supported study, called TACT2, is currently evaluating chelation therapy in people with diabetes who have had a heart attack to see if the apparent benefit can be confirmed.

Source: National Center for Complementary and Integrative Health (NCCIH)

Additional Materials (6)

1:31

Supplements and Your Heart

Lee Health/YouTube

1:01

Mayo Clinic Minute: Do heart supplements work?

Mayo Clinic/YouTube

7:23

Supplements and Cardiovascular Disease: Helpful? Harmful?

Cleveland Clinic/YouTube

0:47

Redefining Heart Disease

Johns Hopkins Medicine/YouTube

9:45

What about Supplements for Heart Failure?

Samaritan Health Services/YouTube

3:14

Study Examines Effectiveness of Vitamins & Supplements on Heart Disease

Baptist Health/YouTube

Chelation Therapy

Chelation Therapy

Image by Herbert L. Fred, MD and Hendrik A. van Dijk

Chelation for Coronary Heart Disease: What You Need To Know

Heart disease is the leading cause of death among both men and women in the United States. Coronary heart disease is the most common type of heart disease and is responsible for more than 370,000 deaths each year. Treatments include lifestyle changes (such as following a heart-healthy diet and quitting smoking), medicines, and medical procedures such as angioplasty.

Some heart disease patients also seek out chelation therapy using disodium EDTA (ethylene diamine tetra-acetic acid), a controversial complementary health approach. This page describes chelation for coronary heart disease and the research done on it, including two large studies funded by the National Institutes of Health (NIH).

What is chelation?

Chelation is a chemical process in which a substance is used to bind metals or minerals so they can be excreted from the body. Chelation has uses in conventional medicine, such as treating iron overload or severe lead poisoning. When it’s used as a complementary treatment for heart disease, a health care provider administers a solution of disodium EDTA in a series of infusions through the veins. A course of treatment can require 20 to 40 weekly infusions lasting several hours each. Patients also typically take high-dose pills of vitamins and minerals.

Is chelation for heart disease approved by the U.S. Food and Drug Administration (FDA)?

No. The use of EDTA chelation for heart disease has not been approved by the FDA.

As discussed below, a large-scale study of EDTA chelation for heart disease in people who have had a heart attack and who also have diabetes is currently in progress. When the study is completed, the FDA may use its results to help make a decision about whether to approve the use of EDTA chelation therapy for this purpose.

What has research shown about chelation for coronary heart disease?

One large-scale study of chelation for coronary disease has been completed: the Trial to Assess Chelation Therapy (TACT), sponsored by the National Center for Complementary and Integrative Health (NCCIH) and the National Heart, Lung, and Blood Institute.
The 1,708 people who participated in TACT were age 50 or older and had had at least one heart attack. They were randomly assigned to receive 40 treatments with EDTA or a placebo, plus either high-dose vitamins and minerals or placebo pills, and they did not know which treatment they were receiving.
Overall, chelation therapy produced a modest reduction in cardiovascular events. However, further analysis showed that the beneficial effect occurred only in people with diabetes.
People with diabetes, who made up about one-third of the participants, had a 41 percent overall reduction in the risk of any cardiovascular event; a 40 percent reduction in the risk of death from heart disease, nonfatal stroke, or nonfatal heart attack; a 52 percent reduction in recurrent heart attacks; and a 43 percent reduction in death from any cause over a period of about 5 years.
The high-dose vitamins and minerals didn’t reduce cardiovascular events, but they appeared to be safe. However, the researchers couldn’t be completely certain about these conclusions because many people stopped taking their vitamin/mineral or placebo pills or dropped out of the study. When all four study groups (those receiving chelation treatments plus vitamins/minerals, chelation treatments plus placebo pills, placebo treatments plus vitamins/minerals, or placebo treatments plus placebo pills) were compared, the group receiving chelation plus vitamins/minerals had the fewest cardiovascular events and the group receiving placebo treatments and placebo pills had the most.
Further research is needed to fully understand the TACT results. Since this is the first clinical trial to show a benefit of chelation, these results are not, by themselves, sufficient to support the routine use of chelation as a post–heart attack therapy in people with diabetes.

Is more research currently being done on chelation for coronary heart disease?

Yes. A large-scale study called Trial to Assess Chelation Therapy 2 (TACT2) is now in progress. Its purpose is to repeat the first TACT study—but only in patients with diabetes who have had a heart attack—to see if the apparent benefit can be confirmed. TACT2 is supported by NCCIH and other NIH agencies.

Can chelation therapy have side effects?

Yes. The most important serious side effects are hypocalcemia (abnormally low blood calcium levels) and damage to the kidneys.
In the TACT study, which had extensive safety monitoring, 16 percent of people receiving chelation and 15 percent of people receiving the placebo stopped their infusions because of an adverse event. Four of those events were serious; two were in the chelation group (one death) and two were in the placebo group (one death).

Do over-the-counter chelation products work? Are they safe?

The FDA has warned the public not to use chelation products that are sold for home use, such as dietary supplements, nasal sprays, or suppositories. These products have not been approved to treat any health condition, and they may have serious side effects. They can also be harmful if people rely on them rather than seeking medical care for serious health problems.

More To Consider

If you’re considering chelation therapy for coronary disease, discuss it first with your cardiologist or other health care provider. Seek out and consider information available from scientific studies on the therapy.
Take charge of your health—talk with your health care providers about any complementary approaches you use. Together, you can make shared, well-informed decisions.

Source: National Center for Complementary and Integrative Health (NCCIH)

Additional Materials (2)

2:43

Chelation therapy shows promise in treatment of heart disease and diabetes

Mount Sinai Miami Beach/YouTube

5:49

Lyle Harrison Chelation Therapy Testimonial - How He Reversed Heart Disease & Blockage

Next Health/YouTube

Percutaneous Coronary Intervention

Atheroma - Blocked Artery Due to Plaque

1

2

3

4

5

Blocked Artery / Balloon Angioplasty / Insertion of Stent

Interactive by TheVisualMD

Percutaneous Coronary Intervention

PCI requires cardiac catheterization, which is the insertion of a catheter tube and injection of contrast dye, usually iodine-based, into your coronary arteries. Doctors use PCI to open coronary arteries that are narrowed or blocked by the buildup of atherosclerotic plaque. PCI may be used to relieve symptoms of coronary heart disease or to reduce heart damage during or after a heart attack.

A cardiologist, or doctor who specializes in the heart, will perform PCI in a hospital cardiac catheterization laboratory. You will stay awake, but you will be given medicine to relax you. Before your procedure, you will receive medicines through an intravenous (IV) line in your arm to prevent blood clots. Your doctor will clean and numb an area on the wrist or groin where your doctor will make a small hole and insert the catheter into your blood vessel. Live x rays will help your doctor guide the catheter into your heart to inject special contrast dye that will highlight the blockage. To open a blocked artery, your doctor will insert another catheter over a guidewire and inflate a balloon at the tip of that catheter. Your doctor may put a small mesh tube called a stent in your artery to help keep the artery open.

After PCI, your doctor will remove the catheters and close and bandage the opening on your wrist or groin. You may develop a bruise and soreness where the catheters were inserted. It also is common to have discomfort or bleeding where the catheters were inserted. You will recover in a special unit of the hospital for a few hours or overnight. You will get instructions on how much activity you can do and what medicines to take. You will need a ride home because of the medicines or anesthesia you received. Your doctor will check your progress during a follow-up visit. If a stent is implanted, you will have to take special anticlotting medicines exactly as prescribed, usually for at least three to 12 months.

Serious complications from PCI don’t occur often, but they can happen. These complications may include bleeding, blood vessel damage, a treatable allergic reaction to the contrast dye, the need for emergency coronary artery bypass grafting during the procedure, arrhythmias, damaged arteries, kidney damage, heart attack, stroke, or blood clots. Sometimes chest pain can occur during PCI because the balloon briefly blocks blood supply to the heart. Restenosis, or tissue regrowth in the treated portion of the artery, may occur in the following months and cause the artery to become narrow or blocked again. The risk of complications is higher if you are older, have chronic kidney disease, are experiencing heart failure at the time of the procedure, or have extensive heart disease and multiple blockages in your coronary arteries.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (16)

Percutaneous Coronary Intervention- Coronary Angioplasty

Video by FSUMedMedia/YouTube

Percutaneous Coronary Intervention (PCI)

Video by CHI Health/YouTube

Angiogram & angioplasty: what to expect

Video by Sunnybrook Hospital/YouTube

Bare-Metal, Drug-Eluting, and Bioresorbable Stents in Context

Video by Mayo Clinic/YouTube

Primary Angioplasty Twenty Four Seven

Video by ominhs/YouTube

Balloon Angioplasty Coronary Angioplasty Heart Surgery PreOp® Patient Education

Video by PreOp.com Patient Engagement - Patient Education/YouTube

Heart - Stent Implantation Coronary Angioplasty PreOp® Patient Education HD

Video by PreOp.com Patient Engagement - Patient Education/YouTube

Myocardial Infarction and Coronary Angioplasty Treatment, Animation.

Video by Alila Medical Media/YouTube

Stent Implantation Coronary Angioplasty Surgery PreOp® Patient Education

Video by PreOp.com Patient Engagement - Patient Education/YouTube

Angioplasty Procedure Animation Video.

Video by Fortis Healthcare/YouTube

4 angioplasty

Video by PatientEdChannel/YouTube

British Heart Foundation - Your guide to Angioplasty and Stents

Video by British Heart Foundation/YouTube

Carotid Artery Disease & Stroke Angioplasty - Dr. May Nour | UCLAMDChat

Video by UCLA Health/YouTube

What is a Coronary Angiography and Angioplasty?

Video by SingHealth/YouTube

Laser angioplasty

Video by Focus Medica/YouTube

Percutaneous Coronary Intervention

Percutaneous Coronary Intervention

Image by TheVisualMD

2:21

Percutaneous Coronary Intervention- Coronary Angioplasty

FSUMedMedia/YouTube

2:51

Percutaneous Coronary Intervention (PCI)

CHI Health/YouTube

6:36

Angiogram & angioplasty: what to expect

Sunnybrook Hospital/YouTube

18:54

Bare-Metal, Drug-Eluting, and Bioresorbable Stents in Context

Mayo Clinic/YouTube

6:56

Primary Angioplasty Twenty Four Seven

ominhs/YouTube

6:19

Balloon Angioplasty Coronary Angioplasty Heart Surgery PreOp® Patient Education

PreOp.com Patient Engagement - Patient Education/YouTube

5:44

Heart - Stent Implantation Coronary Angioplasty PreOp® Patient Education HD

PreOp.com Patient Engagement - Patient Education/YouTube

2:54

Myocardial Infarction and Coronary Angioplasty Treatment, Animation.

Alila Medical Media/YouTube

1:25

Stent Implantation Coronary Angioplasty Surgery PreOp® Patient Education

PreOp.com Patient Engagement - Patient Education/YouTube

2:55

Angioplasty Procedure Animation Video.

Fortis Healthcare/YouTube

4:42

4 angioplasty

PatientEdChannel/YouTube

5:08

British Heart Foundation - Your guide to Angioplasty and Stents

British Heart Foundation/YouTube

12:49

Carotid Artery Disease & Stroke Angioplasty - Dr. May Nour | UCLAMDChat

UCLA Health/YouTube

3:33

What is a Coronary Angiography and Angioplasty?

SingHealth/YouTube

1:16

Laser angioplasty

Focus Medica/YouTube

Percutaneous Coronary Intervention

TheVisualMD

Prevention

Cardiovascular Continuum

Image by TheVisualMD

How to Prevent Coronary Heart Disease

Coronary heart disease is largely preventable. Studies show that heart-healthy living — never smoking or quitting smoking if you do smoke, eating healthy, and being physically active — throughout life can prevent coronary heart disease and its complications.

A heart-healthy lifestyle is important for people of all ages. But it is especially important for anyone who has other risk factors for heart disease. Work with your healthcare provider to set up a plan that works for you based on your lifestyle, your home and neighborhood environments, and your culture. This may mean taking steps to improve your diet, get physically active, manage other medical conditions, and help you quit smoking.

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (11)

This browser does not support the video element.

Cardiovascular Continuum

Voyage into your body to see an amazing creation you're born with: the perfect cardiovascular system. A lifetime of poor health habits can destroy that system and lead to major medical problems and a shortened lifespan, but it doesn't have to be that way. You have the power to keep your body and mind healthy, strong, and alive. See how you can live longer and live better.

Video by TheVisualMD

Know your Risk and Prevent Heart Disease

Video by NHLBI/YouTube

Women's Heart Health: How to Prevent Heart Disease and Recognize a Heart Attack

Video by UC Davis Health/YouTube

Women learn how to prevent heart disease

Video by ABC 10 News/YouTube

4 Ways to Prevent Heart Disease

Video by National Jewish Health/YouTube

Know these numbers to prevent heart disease

Video by Mayo Clinic/YouTube

Strategies to Prevent Heart Attack and Stroke in the Workplace

Video by Centers for Disease Control and Prevention (CDC)/YouTube

British Heart Foundation - Your weight and heart disease

Video by British Heart Foundation/YouTube

The Cardiovascular Continuum

1

2

3

4

Cardiovascular Continuum 1) Childhood and adolescence (0-20 years) 2) Adulthood (21-40) 3) Middle Age (41-60)

1) Childhood and adolescence (0-20 years) 2) Adulthood (21-40) 3) Middle Age (41-60) 4) Old Age (61 and Up)

Interactive by TheVisualMD

Live Well

To keep your blood vessels healthy and clear, prevention is the best medicine. Eat a diet low in saturated fats and high in fruits, vegetables, nuts, and whole grains. If you smoke, quit, and if you don't smoke, don't start. Have regular checkups and keep track of your cholesterol levels and blood pressure readings. Manage chronic conditions, like diabetes, that can damage blood vessels and cause heart disease if uncontrolled. Staying active is key: your body was made to move. Exercise not only reduces your risk of cardiovascular disease, it also reduces stress and helps prevent many other diseases, including cancer.

Image by TheVisualMD

The Cardiovascular Continuum

Image by TheVisualMD

3:37

Cardiovascular Continuum

TheVisualMD

0:40

Know your Risk and Prevent Heart Disease

NHLBI/YouTube

1:37

Women's Heart Health: How to Prevent Heart Disease and Recognize a Heart Attack

UC Davis Health/YouTube

1:38

Women learn how to prevent heart disease

ABC 10 News/YouTube

2:42

4 Ways to Prevent Heart Disease

National Jewish Health/YouTube

1:13

Know these numbers to prevent heart disease

Mayo Clinic/YouTube

24:19

Strategies to Prevent Heart Attack and Stroke in the Workplace

Centers for Disease Control and Prevention (CDC)/YouTube

6:51

British Heart Foundation - Your weight and heart disease

British Heart Foundation/YouTube

Cardiovascular Continuum 1) Childhood and adolescence (0-20 years) 2) Adulthood (21-40) 3) Middle Age (41-60)

TheVisualMD

Live Well

TheVisualMD

The Cardiovascular Continuum

TheVisualMD

Living With

Rehabilitation

Image by TheVisualMD

Living With Coronary Heart Disease

Receive follow-up care

It is important to get routine medical care and to take all medicines regularly, as prescribed, as part of your treatment plan.

Follow your healthcare provider’s directions, and do not change the amount of your medicine or skip a dose unless your doctor tells you to.
Talk to your provider about how often you should schedule office visits and blood tests.
Call your provider if you have any new symptoms, if your symptoms worsen, or if you have problems with your blood pressure or blood sugar.

Cardiac rehabilitation

You may be referred for exercise-based cardiac rehabilitation to manage symptoms and reduce the chances of future problems such as heart attack. Studies have shown that cardiac rehabilitation lowers the risk of hospitalization and death. It can also improve your quality of life.

Prevent serious problems over your lifetime

Your provider will work with you to manage medical conditions that can raise your risk of heart problems and complications.

Your provider may suggest heart-healthy lifestyle changes, such as eating heart-healthy foods, being physically active, and quitting smoking. You may be referred to other professionals, such as a registered dietitian or exercise physiologist. Your healthcare provider can help you set up a personal plan to meet your health goals.

There are benefits to quitting smoking no matter how long or how much you have smoked. Coronary heart disease risk linked to smoking begins to decrease soon after you quit, and it generally continues to decrease over time.

You may be given a statin to lower your LDL cholesterol, especially after a heart attack.
You may need aspirin to prevent a heart attack or stroke. Low-dose aspirin may help prevent blood clot and lower the risk for heart attacks and other complications of coronary heart disease for some people, particularly those with microvascular disease or who have diabetes. Talk to your provider before taking aspirin because it raises the risk of serious bleeding.
If you have diabetes, you will need to check your blood sugar regularly and keep taking any prescribed medicines.
If your coronary heart disease has gotten worse or has led to a heart attack or sudden cardiac arrest, your doctor may recommend a pacemaker or defibrillator to detect and treat certain types of irregular heartbeats, or arrhythmias.

Take care of your mental health

Living with heart disease may cause fear, anxiety, depression, and stress. You may worry about having heart problems or making lifestyle changes that are necessary for your health. Talk with your healthcare provider about how you feel and consider seeking other forms of support.

Talk to a professional counselor. If you have depression or anxiety, you may also need medicines or other treatments that can improve your quality of life.
Join a patient support group. This may help you adjust to living with heart disease. You can find out how other people manage similar symptoms. Your provider may be able to recommend local support groups, or you can check with an area medical center.
Seek support from family and friends. Letting your loved ones know how you feel and what they can do to help you can help relieve stress and anxiety.

Learn the warning signs of serious complications and have a plan

Serious problems from coronary heart disease can be life-threatening and may lead to disability.

Acute coronary syndrome, including chest pain or heart attack
Arrhythmia
Cardiac arrest
Cardiogenic shock
Heart failure

Source: National Heart, Lung, and Blood Institute (NHLBI)

Additional Materials (14)

In Brief - Your Guide to Living Well with Heart Disease

Document by National Heart Lung and Blood Institute

Cardiac rehabilitation exercise video - from the Cardiac Rehab Team

Video by East Cheshire NHS Trust/YouTube

The Benefits of Cardiac Rehabilitation

Video by Lee Health/YouTube

Cardiac Rehabilitation at Howard County General Hospital

Video by Howard County General Hospital/YouTube

What every patient should know about cardiac rehabilitation

Video by Cleveland Clinic/YouTube

Tai Chi and Cardiac Rehabilitation-Mayo Clinic

Video by Mayo Clinic/YouTube

What to expect in cardiac rehabilitation after heart attack

Video by Piedmont Healthcare/YouTube

British Heart Foundation - Having a heart bypass, Len's story

Video by British Heart Foundation/YouTube

Get Heart Healthy with Soluble Fiber

Video by American Heart Association/YouTube

Can Yoga Help Your Heart Stay Healthy?

Video by Johns Hopkins Medicine/YouTube

Healthy Heart: why you should be physically active and avoid a sedentary lifestyle

Video by European Society of Cardiology/YouTube

Healthy Heart: what you should know about medication adherence

Video by European Society of Cardiology/YouTube

Healthy Heart: what you should know about blood pressure

Video by European Society of Cardiology/YouTube

Healthy Heart: what you should know about stress and the impact it can have

Video by European Society of Cardiology/YouTube

In Brief - Your Guide to Living Well with Heart Disease

National Heart Lung and Blood Institute

22:48

Cardiac rehabilitation exercise video - from the Cardiac Rehab Team

East Cheshire NHS Trust/YouTube

1:35

The Benefits of Cardiac Rehabilitation

Lee Health/YouTube

5:27

Cardiac Rehabilitation at Howard County General Hospital

Howard County General Hospital/YouTube

7:06

What every patient should know about cardiac rehabilitation

Cleveland Clinic/YouTube

1:59

Tai Chi and Cardiac Rehabilitation-Mayo Clinic

Mayo Clinic/YouTube

1:32

What to expect in cardiac rehabilitation after heart attack

Piedmont Healthcare/YouTube

1:48

British Heart Foundation - Having a heart bypass, Len's story

British Heart Foundation/YouTube

2:35

Get Heart Healthy with Soluble Fiber

American Heart Association/YouTube

0:33

Can Yoga Help Your Heart Stay Healthy?

Johns Hopkins Medicine/YouTube

1:33

Healthy Heart: why you should be physically active and avoid a sedentary lifestyle

European Society of Cardiology/YouTube

1:20

Healthy Heart: what you should know about medication adherence

European Society of Cardiology/YouTube

1:46

Healthy Heart: what you should know about blood pressure

European Society of Cardiology/YouTube

1:33

Healthy Heart: what you should know about stress and the impact it can have

European Society of Cardiology/YouTube

Share and discuss

Share your story, discuss an issue or get
advice from the community

Create conversation

Sign up here for full access to StoryMD

Get free access to in-depth articles and track your personal health.

Create Free Account Sign In