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Beta Thalassemia

Table of Contents

Beta Thalassemia

β-thalassemia; Beta-thalassemia; Cooley's anemia; Erythroblastic anemia

Beta-thalassemia is a blood disorder that reduces the body's production of hemoglobin. It occurs when certain gene defects affect production of the beta-globin protein, a component (subunit) of hemoglobin.

Blood Smear Showing Reduced Red Blood Cell Count

Image by TheVisualMD

Summary

Thalassemia Center

Image by President.az/Wikimedia

Thalassemia Center

Image by President.az/Wikimedia

What Is Beta-Thalassemia?

Beta-thalassemia is a blood disorder that reduces the body's production of hemoglobin. Low levels of hemoglobin lead to a shortage of mature red blood cells and a lack of oxygen in the body. People with beta-thalassemia have anemia, which can cause paleness, weakness, fatigue, and more serious complications. There are two main forms of beta-thalassemia, classified based on the severity of symptoms:

Thalassemia major (also called Cooley's anemia) - the more severe form, causing severe anemia and enlarged liver and spleen (hepatosplenomegaly). This form usually becomes apparent before 2 years of age. If not treated, it causes failure to thrive and a shortened life expectancy. Treatment involves regular transfusions and chelation therapy to reduce iron overload. Treatment allows for normal growth and development. Bone marrow transplantation or cord blood transplantation may eliminate the need for regular treatment.
Thalassemia intermedia - the less severe form, becoming apparent later and causing milder anemia that does not require regular blood transfusions. People with this form are also at risk for iron overload.

Beta-thalassemia is caused by mutations in the HBB gene and is typically inherited in an autosomal recessive manner. This means that people with thalassemia major or thalassemia intermedia have a mutation in both of their copies of the HBB gene.

People who have only one HBB gene mutation (carriers) typically are said to have thalassemia minor (or trait) and usually do not have symptoms, but may have some symptoms of anemia. In some cases, anemia is worsened if there is a nutritional deficiency such as with iron, folic acid or vitamin B12.

Very rarely, the inheritance of beta-thalassemia may be dominant. In this case, a person has only one mutated HBB gene, but has signs and symptoms of beta-thalassemia major or beta-thalassemia intermedia.

The exact treatment plan for beta-thalassemia depends on the symptoms and severity in each person.

Source: Genetic and Rare Diseases (GARD) Information Center

Additional Materials (7)

Thalassemic Red Blood Cell

Thalassemic Red Blood Cell : This image shows red blood cells that are consistent with the anemia disorder thalassemia. They are less red and smaller than normal red blood cells. Thalassemias are genetic disorders that involve the decreased and defective production of hemoglobin, a molecule found inside all red blood cells (RBCs) that transports oxygen throughout the body.

Image by TheVisualMD

Iron Overload Educational Videos, Resources Events.flv

Video by pkthalassaemia/YouTube

All About Thalassaemia - Cartoon

Video by Thalassaemia TIF/YouTube

Beta Thalassemia | Zayed's Story

Video by Johns Hopkins Medicine/YouTube

Thalassemia documentary

Video by Media Space Plus/YouTube

Beta Thalassemia; Causes and Types (minor, major and intermedia).

Video by Medicosis Perfectionalis/YouTube

Beta Thalassemia | Genetics & Causes | Beta Globin

Video by Biotech Review/YouTube

Thalassemic Red Blood Cell

TheVisualMD

2:01

Iron Overload Educational Videos, Resources Events.flv

pkthalassaemia/YouTube

4:56

All About Thalassaemia - Cartoon

Thalassaemia TIF/YouTube

4:11

Beta Thalassemia | Zayed's Story

Johns Hopkins Medicine/YouTube

9:25

Thalassemia documentary

Media Space Plus/YouTube

10:56

Beta Thalassemia; Causes and Types (minor, major and intermedia).

Medicosis Perfectionalis/YouTube

4:24

Beta Thalassemia | Genetics & Causes | Beta Globin

Biotech Review/YouTube

What Is Thalassemia?

thalassemia

Image by BruceBlaus

thalassemia

A medical illustration depicting thalassemia.

Image by BruceBlaus

What Is Thalassemia?

Thalassemia is an inherited (i.e., passed from parents to children through genes) blood disorder caused when the body doesn’t make enough of a protein called hemoglobin, an important part of red blood cells. When there isn’t enough hemoglobin, the body’s red blood cells don’t function properly and they last shorter periods of time, so there are fewer healthy red blood cells traveling in the bloodstream.

Red blood cells carry oxygen to all the cells of the body. Oxygen is a sort of food that cells use to function. When there are not enough healthy red blood cells, there is also not enough oxygen delivered to all the other cells of the body, which may cause a person to feel tired, weak or short of breath. This is a condition called anemia. People with thalassemia may have mild or severe anemia. Severe anemia can damage organs and lead to death.

What are the different types of thalassemia?

When we talk about different “types” of thalassemia, we might be talking about one of two things: the specific part of hemoglobin that is affected (usually either “alpha” or “beta”), or the severity of thalassemia, which is noted by words like trait, carrier, intermedia, or major.

Hemoglobin, which carries oxygen to all cells in the body, is made of two different parts, called alpha and beta. When thalassemia is called “alpha” or “beta,” this refers to the part of hemoglobin that isn’t being made. If either the alpha or beta part is not made, there aren’t enough building blocks to make normal amounts of hemoglobin. Low alpha is called alpha thalassemia. Low beta is called beta thalassemia.

When the words “trait,” “minor,” “intermedia,” or “major” are used, these words describe how severe the thalassemia is. A person who has thalassemia trait may not have any symptoms at all or may have only mild anemia, while a person with thalassemia major may have severe symptoms and may need regular blood transfusions.

In the same way that traits for hair color and body structure are passed down from parents to children, thalassemia traits are passed from parents to children. The type of thalassemia that a person has depends on how many and what type of traits for thalassemia a person has inherited, or received from their parents. For instance, if a person receives a beta thalassemia trait from his father and another from his mother, he will have beta thalassemia major. If a person received an alpha thalassemia trait from her mother and the normal alpha parts from her father, she would have alpha thalassemia trait (also called alpha thalassemia minor). Having a thalassemia trait means that you may not have any symptoms, but you might pass that trait on to your children and increase their risk for having thalassemia.

Sometimes, thalassemias have other names, like Constant Spring, Cooley’s Anemia, or hemoglobin Bart hydrops fetalis. These names are specific to certain thalassemias – for instance, Cooley’s Anemia is the same thing as beta thalassemia major.

How do I know if I have thalassemia?

People with moderate and severe forms of thalassemia usually find out about their condition in childhood, since they have symptoms of severe anemia early in life. People with less severe forms of thalassemia may only find out because they are having symptoms of anemia, or maybe because a doctor finds anemia on a routine blood test or a test done for another reason.

Because thalassemias are inherited, the condition sometimes runs in families. Some people find out about their thalassemia because they have relatives with a similar condition.

People who have family members from certain parts of the world have a higher risk for having thalassemia. Traits for thalassemia are more common in people from Mediterranean countries, like Greece and Turkey, and in people from Asia, Africa, and the Middle East. If you have anemia and you also have family members from these areas, your doctor might test your blood further to find out if you have thalassemia.

Can I prevent thalassemia?

Because thalassemia is passed from parents to children, it is very hard to prevent. However, if you or your partner knows of family members with thalassemia, or if you both have family members from places in the world where thalassemia is common, you can speak to a genetic counselor (go to: https://www.nsgc.org/page/find-a-genetic-counselor) to determine what your risk would be of passing thalassemia to your children.

Source: Centers for Disease Control and Prevention (CDC)

Is It Common?

Illustration of rare disease incidence

Image by mcmurryjulie/Pixabay

Illustration of rare disease incidence

Image by mcmurryjulie/Pixabay

How Common Is Beta Thalassemia?

Beta thalassemia is a fairly common blood disorder worldwide. Thousands of infants with beta thalassemia are born each year. Beta thalassemia occurs most frequently in people from Mediterranean countries, North Africa, the Middle East, India, Central Asia, and Southeast Asia.

Source: MedlinePlus Genetics

Causes

In human, the HBB gene is located on chromosome 11 at position p15.5.

Image by U.S. National Library of Medicine

In human, the HBB gene is located on chromosome 11 at position p15.5.

HBB gene. Cytogenetic Location: 11p15.5 The HBB gene is located on the short (p) arm of chromosome 11 at position 15.5. More precisely, the HBB gene is located from base pair 5,225,465 to base pair 5,227,070 on chromosome 11.

Image by U.S. National Library of Medicine

What Causes Beta Thalassemia?

Variants (also known as mutations) in the HBB gene cause beta thalassemia. The HBB gene provides instructions for making a protein called beta-globin. Beta-globin is a component (subunit) of hemoglobin. Hemoglobin consists of four protein subunits, typically two subunits of beta-globin and two subunits of another protein called alpha-globin.

Some variants in the HBB gene prevent the production of any beta-globin. The absence of beta-globin is referred to as beta-zero (β0) thalassemia. Other HBB gene variants allow some beta-globin to be produced but in reduced amounts. A reduced amount of beta-globin is called beta-plus (β+) thalassemia. Having either β0 or β+ thalassemia does not necessarily predict disease severity, however; people with both types have been diagnosed with thalassemia major and thalassemia intermedia.

A shortage of beta-globin hinders the formation of functional hemoglobin. Without sufficient hemoglobin, red blood cells do not develop normally, causing a shortage of mature red blood cells. The low number of mature red blood cells leads to anemia and other associated health problems in people with beta thalassemia.

Source: MedlinePlus Genetics

HBB Gene

Ideogram of human chromosome 11

Ideogram of human chromosome 11

Selected genes, traits, and disorders associated with the chromosome listed; (blue and violet) regions reflecting the unique patterns of light and dark bands seen on human chromosomes stained to allow viewing through a light microscope; (red) the centromere, or constricted portion, of each chromosome; (yellow) chromosomal regions that vary in staining intensity and sometimes are called hererochromatin (meaning “different color”); (lines between yellow) variable regions, called stalks, that connect a very small chromosome arm (a “satellite”) to the chromosome.

HBB Gene: Hemoglobin Subunit Beta

Normal Function

The HBB gene provides instructions for making a protein called beta-globin. Beta-globin is a component (subunit) of a larger protein called hemoglobin, which is located inside red blood cells. In adults, hemoglobin consists of four protein subunits: usually two subunits of beta-globin and two subunits of a protein called alpha-globin, which is produced from another gene called HBA. Each of these protein subunits is attached (bound) to an iron-containing molecule called heme; the iron in the center of each heme can bind to one oxygen molecule. Hemoglobin within red blood cells binds to oxygen molecules in the lungs. These cells then travel through the bloodstream and deliver oxygen to tissues throughout the body.

Health Conditions Related to Genetic Changes

Beta thalassemia

Hundreds of variants (also known as mutations) in the HBB gene have been found to cause beta thalassemia. Most of the variants involve a change in a single DNA building block (nucleotide) within or near the HBB gene. Other variants insert or delete a small number of nucleotides in the HBB gene.

HBB gene variants that decrease beta-globin production result in a condition called beta-plus (β+) thalassemia. Variants that prevent cells from producing any beta-globin result in beta-zero (β0) thalassemia.

Problems with the subunits that make up hemoglobin, including low levels of beta-globin, reduce or eliminate the production of this molecule. A lack of hemoglobin disrupts the normal development of red blood cells. A shortage of mature red blood cells can reduce the amount of oxygen that is delivered to tissues to below what is needed to satisfy the body's energy needs. A lack of oxygen in the body's tissues can lead to poor growth, organ damage, and other health problems associated with beta thalassemia.

Methemoglobinemia, beta-globin type

Variants in the HBB gene have been found to cause methemoglobinemia, beta-globin type, which is a condition that alters the hemoglobin within red blood cells. These variants often affect the region of the protein that binds to heme. For hemoglobin to bind to oxygen, the iron within the heme molecule needs to be in a form called ferrous iron (Fe2+). The iron within the heme can change to another form of iron called ferric iron (Fe3+), which cannot bind to oxygen. Hemoglobin that contains ferric iron is known as methemoglobin and is unable to efficiently deliver oxygen to the body's tissues.

In methemoglobinemia, beta-globin type, variants in the HBB gene alter the beta-globin protein and promote the heme iron to change from ferrous to ferric. This altered hemoglobin gives the blood a brown color and causes a bluish appearance of the skin, lips, and nails (cyanosis). The signs and symptoms of methemoglobinemia, beta-globin type are generally limited to cyanosis, which does not cause any health problems. However, in rare cases, severe methemoglobinemia, beta-globin type can cause headaches, weakness, and fatigue.

Sickle cell disease

Sickle cell anemia (also called homozygous sickle cell disease or HbSS disease) is the most common form of sickle cell disease. This form is caused by a particular variant in the HBB gene that results in the production of an abnormal version of beta-globin called hemoglobin S or HbS. In this condition, hemoglobin S replaces both beta-globin subunits in hemoglobin.

The variant that causes hemoglobin S changes a single protein building block (amino acid) in beta-globin. Specifically, the amino acid glutamic acid is replaced with the amino acid valine at position 6 in beta-globin, written as Glu6Val or E6V. Replacing glutamic acid with valine causes the abnormal hemoglobin S subunits to stick together and form long, rigid molecules that bend red blood cells into a sickle (crescent) shape. The sickle-shaped cells die too early, which can lead to a shortage of red blood cells (anemia). The sickle-shaped cells are rigid and can block small blood vessels, causing severe pain and organ damage.

Variants in the HBB gene can also cause other abnormalities in beta-globin, leading to other types of sickle cell disease. These abnormal forms of beta-globin are often designated by letters of the alphabet or sometimes by a name. In these other types of sickle cell disease, just one beta-globin subunit is replaced with hemoglobin S. The other beta-globin subunit is replaced with a different abnormal variant, such as hemoglobin C or hemoglobin E.

In hemoglobin SC (HbSC) disease, the beta-globin subunits are replaced by hemoglobin S and hemoglobin C. Hemoglobin C results when the amino acid lysine replaces the amino acid glutamic acid at position 6 in beta-globin (written Glu6Lys or E6K). The severity of hemoglobin SC disease is variable, but it can be as severe as sickle cell anemia. Hemoglobin E (HbE) is caused when the amino acid glutamic acid is replaced with the amino acid lysine at position 26 in beta-globin (written Glu26Lys or E26K). In some cases, the hemoglobin E variant is present with hemoglobin S. In these cases, a person may have more severe signs and symptoms associated with sickle cell anemia, such as episodes of pain, anemia, and abnormal spleen function.

Other conditions, known as hemoglobin sickle-beta thalassemias (HbSBetaThal), are caused when variants that result in hemoglobin S and beta thalassemia (described above) occur together. Variants that combine sickle cell disease with beta-zero (β0) thalassemia lead to severe disease, while sickle cell disease combined with beta-plus (β+) thalassemia is generally milder.

Other disorders

Hundreds of variations have been identified in the HBB gene. These changes result in the production of different versions of beta-globin. Some of these variations cause no noticeable signs or symptoms and are found when blood work is done for other reasons, while other HBB gene variations may affect a person's health. Two of the most common variants are hemoglobin C and hemoglobin E (described above).

Hemoglobin C (HbC), caused by the Glu6Lys variant in beta-globin, is more common in people of West African descent than in other populations. People who have two hemoglobin C subunits in their hemoglobin, instead of normal beta-globin, have a mild condition called hemoglobin C disease. This condition often causes chronic anemia, in which the red blood cells are broken down prematurely.

Hemoglobin E (HbE), caused by the Glu26Lys variant in beta-globin, is a variant of hemoglobin most commonly found in the Southeast Asian population. When a person has two hemoglobin E subunits in their hemoglobin in place of beta-globin, a mild anemia called hemoglobin E disease can occur. In some cases, the variants that produce hemoglobin E and beta thalassemia (described above) are found together. People with this hemoglobin combination can have signs and symptoms ranging from mild anemia to severe thalassemia major.

Other Names for This Gene

beta globin
beta-globin
HBB_HUMAN
hemoglobin beta gene
hemoglobin, beta
hemoglobin--beta locus

Genomic Location

The HBB gene is found on chromosome 11.

Source: MedlinePlus Genetics

Inheritance

Newborn autosomal recessive pattern of inheritance

Image by Thomas Shafee and TheVisualMD

Newborn autosomal recessive pattern of inheritance

Newborn autosomal recessive pattern of inheritance

Image by Thomas Shafee and TheVisualMD

How Is Beta Thalassemia Inherited?

Thalassemia major and thalassemia intermedia are inherited in an autosomal recessive pattern, which means both copies of the HBB gene in each cell have variants. The parents of an individual with an autosomal recessive condition each carry one copy of the altered gene, but they typically do not show signs and symptoms of the condition. Sometimes, however, people with only one HBB gene variant in each cell develop mild anemia. These mildly affected people are said to have thalassemia minor.

In a small percentage of families, the HBB gene variant is inherited in an autosomal dominant manner. In these cases, one copy of the altered gene in each cell is sufficient to cause the signs and symptoms of beta thalassemia.

Source: MedlinePlus Genetics

Symptoms

A patient having thalassemia shows enlarged spleen.

Image by ShazidSharif/Wikimedia

A patient having thalassemia shows enlarged spleen.

Image by ShazidSharif/Wikimedia

If I Have Thalassemia, How Does It Affect My Body?

Since your body has fewer red blood cells when you have thalassemia, you may have symptoms of a low blood count, or anemia. When you have anemia, you might feel tired or weak. You might also experience:

Dizziness
Shortness of breath
A fast heart beat
Headache
Leg cramps
Difficulty concentrating
Pale skin

Your body will try very hard to make more red blood cells. The main place where blood cells are made is the bone marrow, the dark spongy part in the middle of bones. Because your bone marrow may be working harder than normal, it might grow bigger. This causes your bones to expand, and may stretch your bones and make them thinner and more easily broken.

Another place where blood is made is an organ called the spleen. It sits on the left side of your abdomen, just under your lower ribs. The spleen has many other jobs. Two of the major ones are filtering the blood and monitoring the blood for certain infections. When it finds these infections, it can start the process of fighting them. When you have thalassemia, the spleen can get very big as it tries to make blood cells. Because it is working so hard on this job, it can’t work as hard to filter blood or monitor for and fight infections. Because of this, people with thalassemia are said to be “immunocompromised,” which means that some of the body’s defenses against infection aren’t working. When you are immunocompromised, it is easier for you to get infections and you sometimes need extra protection, like flu shots and other vaccines.

Source: Centers for Disease Control and Prevention (CDC)

Diagnosis

Complete Blood Count, and Baselining Your Health

Image by TheVisualMD

Complete Blood Count, and Baselining Your Health

Video Topics : Our lifeblood consists of many components and a complete blood count (CBC) includes measurements of the fundamental elements. The largest categories are red and white blood cells (RBCs and WBCs) and cell fragments called platelets, which play roles in blood clotting. There are 20-30 trillion red blood cells in the body of an adult, each with a lifespan of about 100 days (RBCs contain an iron-containing protein called hemoglobin that enables them to carry oxygen to tissues throughout the body and then return carbon dioxide to the lungs). WBCs are in the front lines in the body's ongoing fight against harmful viruses, bacteria and even fungus; when a pathogen enters the body, WBCs mobilize in a coordinated defense response to eliminate, neutralize or mark the invader for destruction. The liquid portion of blood is called plasma and it carries nutrients, electrolytes, waste products, and hormones.

Image by TheVisualMD

How Are Thalassemias Diagnosed?

The ways that a healthcare provider diagnoses thalassemia depends on the type of thalassemia you have. If you have minor or no symptoms, your provider may suspect thalassemia based on the results of a routine blood test. Other types of thalassemia cause more severe symptoms that can be found earlier in life, usually before a child is 2 years old.

To determine whether you or your child have thalassemia, your provider may ask about your risk factors, including your family’s and your medical history. Since thalassemia is inherited through genes, your provider may also ask whether someone in your family has thalassemia.

Your provider might also order blood or genetic tests.

Blood and genetic tests

Your provider may order the following tests to determine whether you or your child have thalassemia:

Complete blood count (CBC) measures the amount of hemoglobin and different types of blood cells (such as red blood cells) in your blood. People who have thalassemia have fewer healthy red blood cells and less hemoglobin than normal. Depending on the type of thalassemia, your red blood cells may look smaller and show signs of disease under a microscope.
Special hemoglobin tests measure the types of hemoglobin in a sample of blood. This test can help to distinguish between different medical conditions caused by problems with hemoglobin.
Genetic testing can help determine what specific type of thalassemia you have.

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

Additional Materials (8)

Blood sample

During the blood collection process, medical personnel gather additional blood samples to test for an array of blood disorders and communicable diseases. Every unit of blood is rigorously tested before approved for transfusion into a patient.

Image by United States Marine Corps

Lab results in thalassemia; How To Diagnose Thalassemia!

Video by Medicosis Perfectionalis/YouTube

Complete blood count and differential

Illustration of complete blood count and differential (hemogram, full blood exam, leukogram etc.) test results with blood specimen in EDTA tube. N.B. these are my own CBC and diff results so no patient confidentiality issues. Symbol key: CBC, complete blood cell count; WBC, white blood cell count (leukocyte count); RBC, red blood cell count (erythrocyte count); HGB, hemoglobin level; HCT, hematocrit; MCV, mean corpuscular volume; MCH, mean corpuscular hemoglobin (per erythrocyte); MCHC, mean corpuscular hemoglobin concentration; RDW-CV, red blood cell distribution width–coefﬁcient of variation; PLT, platelet count (thrombocyte count); MPV, mean platelet volume; NEUT, neutrophil count; LYMPH, lymphocyte count; MONO, monocyte count; EO, eosinophil count; BASO, basophil count; IG, immature granulocyte count; NRBC, nucleated red blood cell count; EDTA, ethylenediaminetetraacetic acid, a preservative that makes the blood sample last long enough to be processed (it inhibits coagulation by chelating calcium ions).

Image by SpicyMilkBoy/Wikimedia

Blood in Vial

Blood tests show whether the levels of different substances in your blood fall within a normal range. Some common blood tests are the complete blood count, which includes red blood cell, white blood cell, and platelet counts; the blood glucose test; and the lipoprotein panel, which measures cholesterol levels. Certain types of blood tests can help detect cancer, but additional tests are necessary to confirm diagnosis.

Image by TheVisualMD

Components of Blood

Components of Blood : Our blood is composed of many different components, the largest categories being red and white blood cells (blood-clotting platelets are another key component) and the liquid portion known as blood plasma. A Complete Blood Count (CBC) includes several of the most basic, yet important, measurements of these components.

Image by TheVisualMD

Blood Tests

Blood tests show whether the levels of different substances in your blood fall within a normal range. Some common blood tests are the complete blood count, which includes red blood cell, white blood cell, and platelet counts; the blood glucose test; and the lipoprotein panel, which measures cholesterol levels. Certain types of blood tests can help detect cancer, but additional tests are necessary to confirm diagnosis.

Image by TheVisualMD

Medical Checkups

Image by TheVisualMD

This browser does not support the video element.

Complete Blood Count, and Baselining Your Health

Video Topics : Our lifeblood consists of many components and a complete blood count (CBC) includes measurements of the fundamental elements. The largest categories are red and white blood cells (RBCs and WBCs) and cell fragments called platelets, which play roles in blood clotting. There are 20-30 trillion red blood cells in the body of an adult, each with a lifespan of about 100 days (RBCs contain an iron-containing protein called hemoglobin that enables them to carry oxygen to tissues throughout the body and then return carbon dioxide to the lungs). WBCs are in the front lines in the body's ongoing fight against harmful viruses, bacteria and even fungus; when a pathogen enters the body, WBCs mobilize in a coordinated defense response to eliminate, neutralize or mark the invader for destruction. The liquid portion of blood is called plasma and it carries nutrients, electrolytes, waste products, and hormones.

Video by TheVisualMD

Blood sample

United States Marine Corps

5:41

Lab results in thalassemia; How To Diagnose Thalassemia!

Medicosis Perfectionalis/YouTube

Complete blood count and differential

SpicyMilkBoy/Wikimedia

Blood in Vial

TheVisualMD

Components of Blood

TheVisualMD

Blood Tests

TheVisualMD

Medical Checkups

TheVisualMD

2:12

Complete Blood Count, and Baselining Your Health

TheVisualMD

Complete Blood Count

Complete Blood Count

Also called: CBC, Full Blood Count, Blood Cell Count, Hemotology Panel

A complete blood count (CBC) is often part of a routine exam. It is used to measure different parts and features of your blood. A CBC can help detect a variety of disorders including infections, anemia, diseases of the immune system, and blood cancers.

Complete Blood Count

Also called: CBC, Full Blood Count, Blood Cell Count, Hemotology Panel

A complete blood count (CBC) is often part of a routine exam. It is used to measure different parts and features of your blood. A CBC can help detect a variety of disorders including infections, anemia, diseases of the immune system, and blood cancers.

A complete blood count, or CBC, is a blood test that measures many different parts and features of your blood, including:
- Red blood cells, which carry oxygen from your lungs to the rest of your body.
- White blood cells, which fight infections and other diseases. There are five major types of white blood cells. A CBC test measures the total number of white cells in your blood. A different test called a CBC with differential measures the number of each type of these white blood cells.
- Platelets, which stop bleeding by helping your blood to clot.
- Hemoglobin, a protein in red blood cells that carries oxygen from your lungs to the rest of your body.
- Hematocrit, a measurement of how much of your blood is made up of red blood cells.
- Mean corpuscular volume (MCV), a measure of the average size of your red blood cells.
Other names for a complete blood count: CBC, full blood count, blood cell count
Your health care provider may have ordered a complete blood count as part of your checkup or to monitor your overall health. The test may also be used to:
- Help diagnose blood diseases, infection, immune system disorders, or other medical conditions
- Check for changes in an existing blood disorder
A CBC counts the cells in your blood. There are many reasons your levels may not be in the normal range. For example:
- Abnormal levels of red blood cells, hemoglobin, or hematocrit may be a sign of anemia, heart disease, or too little iron in your body.
- Low white cell count may be a sign of an autoimmune disorder, bone marrow disorder, or cancer.
- High white cell count may be a sign of an infection or a reaction to medicine.
If any of your levels are abnormal, it doesn't always mean you have a medical condition that needs treatment. Diet, activity level, medicines, a menstrual period, not drinking enough water, and other factors can affect the results. Talk with your provider to learn what your results mean.
1. Complete Blood Count (CBC): MedlinePlus Medical Test [accessed on Jan 20, 2024]
2. Blood Tests - Blood Tests | NHLBI, NIH. Mar 24, 2022 [accessed on Jan 20, 2024]

Additional Materials (25)

Reticulocyte Count, Hemorrhage/Chronic Blood Loss

Reticulocytes are immature red blood cells (RBCs) released into the bloodstream from the bone marrow in which they developed. Normally, only a tiny percentage red blood cells circulating in the bloodstream are reticulocytes. The reticulocyte count rises, however, when bone marrow is called upon to produce more RBCs, in conditions such as heavy bleeding or certain types of anemia.

Image by TheVisualMD

Blood sample

During the blood collection process, medical personnel gather additional blood samples to test for an array of blood disorders and communicable diseases. Every unit of blood is rigorously tested before approved for transfusion into a patient.

Image by United States Marine Corps

Phlebotomy

Venipuncture (blood draw / collection) in the left arm of a male.

Image by MatthewLammers

Blood and Related Conditions

Blood and Related Conditions : Anemia results when there are too few red blood cells circulating in the bloodstream to deliver adequate oxygen to body tissues. There are different types and causes of anemia, including malnutrition, chronic bleeding, and diseases that result in red blood cells either being destroyed too quickly or produced too slowly.

Image by TheVisualMD

Components of Blood

Components of Blood : Our blood is composed of many different components, the largest categories being red and white blood cells (blood-clotting platelets are another key component) and the liquid portion known as blood plasma. A Complete Blood Count (CBC) includes several of the most basic, yet important, measurements of these components.

Image by TheVisualMD

Blood fractionation

Vial of separated blood. The middle layer is a type of sterile goo which separates the blood from the rest of what's drawn.

Image by Wheeler Cowperthwaite from Reno, USA

Whole Blood

A Red Cross whole blood donation before any separation

Image by Whoisjohngalt

White Blood Cells Rotation

This rotational interactive features five white blood cells. At the top left is a neutrophil (purple nucleus); center is a Monocyte-macrophage (orange nucleus); top right is a Lymphocyte (red nucleus); bottom left a Basophil (green nucleus); and bottom right an Eosinophil (yellow nucleus). These molecules are all part of a white blood cell count test. A white blood cell count is an important measure of this key component of the immune system; when the body is under attack, more WBCs are produced. White blood cells (also called leukocytes or WBCs) are in the front lines in the fight against harmful viruses, bacteria and even fungus. A white blood cell count is an important measure of this key component of the immune system; when the body is under attack, more WBCs are produced. Other factors, however, may also affect WBC counts, including allergies, chemotherapy, and other drugs, as well as leukemia.

Image by TheVisualMD

Medical Checkups

Image by TheVisualMD

Medical Checkups

Most doctors believe that people should have regular checkups as a part of preventive treatment. Regular health exams can help find problems before they begin, or in their early stages, when the chances of successful treatment are best. Blood Pressure Reading: Photo Copyright 2005, James Gathany

Image by TheVisualMD

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Complete Blood Count, and Baselining Your Health

Video Topics : Our lifeblood consists of many components and a complete blood count (CBC) includes measurements of the fundamental elements. The largest categories are red and white blood cells (RBCs and WBCs) and cell fragments called platelets, which play roles in blood clotting. There are 20-30 trillion red blood cells in the body of an adult, each with a lifespan of about 100 days (RBCs contain an iron-containing protein called hemoglobin that enables them to carry oxygen to tissues throughout the body and then return carbon dioxide to the lungs). WBCs are in the front lines in the body's ongoing fight against harmful viruses, bacteria and even fungus; when a pathogen enters the body, WBCs mobilize in a coordinated defense response to eliminate, neutralize or mark the invader for destruction. The liquid portion of blood is called plasma and it carries nutrients, electrolytes, waste products, and hormones.

Video by TheVisualMD

Full Blood Count – what it tells your doctor about your health

Video by Pathology Tests Explained/YouTube

Complete Blood Count (CBC)

Video by Medicosis Perfectionalis/YouTube

Complete Blood Count

Video by Tom Wade MD/YouTube

high white blood cell count Video

Video by itbestshop/YouTube

Complete Blood Count pt1

Video by Med Immersion/YouTube

Complete Blood Count pt2

Video by Med Immersion/YouTube

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Normal Red Blood Cell (RBC) Count

An animation simulating a view of a healthy count of red blood cells as viewed in a slide projector or under a microscope. Initially, the screen in white with a circular black vignette along its borders. Then a still showing red blood cells slides up from the bottom left filling the screen and then comes into focus. The red blood cells resemble those taken from an scanning electron micrograph (SEM) and fill up the given space on the screen.

Video by TheVisualMD

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Anemic Blood Flow

Camera is stationary as it focuses on a capillary in a cell bed demonstrating anemic blood flow and it's lower red blood cell count.

Video by TheVisualMD

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Anemic Red Blood Cell (RBC) Count

An animation simulating a view of an unhealthy count of red blood cells as viewed in a slide projector or under a microscope. Initially, the screen in white with a circular black vignette along its borders. Then a still showing red blood cells on a light red background slides up from the bottom left filling the screen and then comes into focus. The red blood cells resemble those taken from an scanning electron micrograph (SEM). There are only a few red blood cells in this slide indicative of the low amount typical of some one who is anemic.

Video by TheVisualMD

This browser does not support the video element.

Anemic Red Blood Cell (RBC) Count

An animation simulating a close-up of an unhealthy count of red blood cells as viewed in a slide projector or under a microscope. Initially, the screen in white with a circular black vignette along its borders. Then a still showing red blood cells on a light red background slides up from the bottom left filling the screen and then comes into focus. Throughout the animation, the slide jitters a little. The red blood cells resemble those taken from an scanning electron micrograph (SEM). In this close up there are a few red blood cells along with a few white blood cells.

Video by TheVisualMD

Why Blood Tests Can Save Your Life

Video by Seeker+/YouTube

Introduction to lab values and normal ranges | Health & Medicine | Khan Academy

Video by khanacademymedicine/YouTube

Low blood counts and the risk of infection in cancer patients | Norton Cancer Institute

Video by Norton Healthcare/YouTube

Dr. Erba Describes Proper Diagnostic Testing of CML

Video by OncLiveTV/YouTube

Reticulocyte Count, Hemorrhage/Chronic Blood Loss

TheVisualMD

Blood sample

United States Marine Corps

Phlebotomy

MatthewLammers

Blood and Related Conditions

TheVisualMD

Components of Blood

TheVisualMD

Blood fractionation

Wheeler Cowperthwaite from Reno, USA

Whole Blood

Whoisjohngalt

White Blood Cells Rotation

TheVisualMD

Medical Checkups

TheVisualMD

Medical Checkups

TheVisualMD

2:12

Complete Blood Count, and Baselining Your Health

TheVisualMD

4:18

Full Blood Count – what it tells your doctor about your health

Pathology Tests Explained/YouTube

7:04

Complete Blood Count (CBC)

Medicosis Perfectionalis/YouTube

4:11

Complete Blood Count

Tom Wade MD/YouTube

8:22

high white blood cell count Video

itbestshop/YouTube

16:12

Complete Blood Count pt1

Med Immersion/YouTube

22:14

Complete Blood Count pt2

Med Immersion/YouTube

0:06

Normal Red Blood Cell (RBC) Count

TheVisualMD

0:07

Anemic Blood Flow

TheVisualMD

0:14

Anemic Red Blood Cell (RBC) Count

TheVisualMD

0:14

Anemic Red Blood Cell (RBC) Count

TheVisualMD

8:29

Why Blood Tests Can Save Your Life

Seeker+/YouTube

10:42

Introduction to lab values and normal ranges | Health & Medicine | Khan Academy

khanacademymedicine/YouTube

1:32

Low blood counts and the risk of infection in cancer patients | Norton Cancer Institute

Norton Healthcare/YouTube

2:39

Dr. Erba Describes Proper Diagnostic Testing of CML

OncLiveTV/YouTube

Red Blood Cells

Red Blood Cell (RBC) Count

Also called: Erythrocyte Count, RBC Count, Red Blood Count, Red Blood Cell Count, Red Count

A red blood cell (RBC) count is a blood test that measures the number of red blood cells in your blood. Red blood cells carry oxygen from your lungs to the rest of your body. An abnormal RBC count can be a sign of a serious health problem.

Red Blood Cell (RBC) Count

Also called: Erythrocyte Count, RBC Count, Red Blood Count, Red Blood Cell Count, Red Count

A red blood cell (RBC) count is a blood test that measures the number of red blood cells in your blood. Red blood cells carry oxygen from your lungs to the rest of your body. An abnormal RBC count can be a sign of a serious health problem.

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Use the slider below to see how your results affect your health.
(10<sup>6</sup>)/μL
3.9
5.5
Your result is Normal.
Red blood cells (RBC) are made in the bone marrow and contain hemoglobin, a protein that carries oxygen to the tissues in the body. RBCs make up approximately 44% of the total blood volume.
Related conditions
You may get this test as part of a complete blood count, which is often included in a routine checkup. You may also need this test if you have symptoms of a low or high red blood cell count.
Symptoms of a low red blood cell count include:
- Weakness
- Fatigue
- Pale skin
- Rapid heartbeat
Symptoms of a high red blood cell count include:
- Headache
- Dizziness
- Vision problems
Your results will show whether you have a normal red blood cell count or a count that is too low or too high.
A low red blood cell count can be a sign of:
- Anemia
- Leukemia, a type of blood cancer
- Malnutrition, a condition in which your body does not get the calories, vitamins, and/or minerals needed for good health
- Multiple myeloma, a cancer of the bone marrow
- Kidney failure
It may also be a sign of pregnancy.
A high red blood cell count can be a sign of:
- Dehydration
- Heart disease
- Polycythemia vera, a bone marrow disease that causes too many red blood cells to be made
- Scarring of the lungs, often due to cigarette smoking
- Lung disease
- Kidney cancer
If you have questions about your results, talk to your health care provider.
If results showed you had a low or a high red blood cell count, you may need more tests to help make a diagnosis. These include:
- Reticulocyte count, a test that counts the number of reticulocytes in the blood. Reticulocytes are red blood cells that are still developing. These are also known as immature red blood cells.
- Iron tests, which measure iron levels in the blood. Iron is essential for making red blood cells.
- Vitamin B test, which measures the amount of one or more B vitamins in the blood. B vitamins are important for making red blood cells.
1. Red Blood Cell (RBC) Count: MedlinePlus Medical Test [accessed on Jan 20, 2024]
2. RBC count: MedlinePlus Medical Encyclopedia [accessed on Jan 20, 2024]
3. Red Blood Cell Count (RBC) Test - Testing.com. Sep 27, 2022 [accessed on Jan 20, 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 (19)

Red blood cells

Red blood cells

Image by John Kalekos of Massachusetts image distribution for Science and Learning

Red Blood Cell

This image shows two red blood cells. The red blood cell is also called an erythrocyte: erythro is Greek for \"red,\" cyte is Latin for \"cell.\" The disc-shaped RBCs have the critical job of transporting oxygen from the lungs to the body's cells and bringing carbon dioxide from the cells back to the lungs to be expelled.

Image by TheVisualMD

Red Blood Cell in Capillary

The cardiovascular system is vast network of arteries, veins and vessels that would extend 60,000 miles if stretched end-to-end. All but a tiny fraction of this vessel network is invisible to the naked eye. The smallest capillaries (from latin "hairlike") are so narrow that red blood cells must pass through in single file. Higher than normal blood iron levels have been linked to heart disease and the reason is believed to be the oxidative stress the excess iron places on the walls of the blood vessels. It is the biological counterpart of rust. There are 20-30 trillion red blood cells (RBCs) in an adult's body. The life span of RBCs, which are produced in bone marrow, is about 100 days, which means that 2 million die (and are replaced) each second, but in that short lifetime they can make 75,000 round trips between lungs, heart and tissues in the body.

Image by TheVisualMD

Blood Smear Showing Reduced Red Blood Cell Count

Individual blood cells were first detected and described in the 17th century. Later, red blood cells (RBCs) were counted manually from a blood smear, a thin film of blood prepared on a glass slide and examined under a microscope (blood analysis is now automated, though smears are still used to detect visible abnormalities and to check or confirm the results of other tests). Anemia results when there are too few RBCs in circulation because they are being destroyed too quickly or produced too slowly. Anemia can be temporary or long term and range from mild to severe. Folate (also known as vitamin B9) is necessary for red blood cell production and the prevention of anemia, as well as the metabolism of carbohydrates. But folate also plays key roles in the synthesis and maintenance of DNA and is especially important in cell division and growth in fetal development (deficiencies of the vitamin in pregnancy is a common cause of birth defects). Pernicious anemia is a disorder in which the body's loses its ability to utilize folate and vitamin B12.

Image by TheVisualMD

Red Blood Cell (RBC)

There are 20-30 trillion red blood cells (RBCs) in an adult's body. The life span of RBCs, which are produced in bone marrow, is about 100 days, which means that 2 million die (and are replaced) each second. In their short lifetimes, however, red blood cells can make 75,000 round trips between lungs, heart and tissues in the body.

Image by TheVisualMD

Red Blood Cell

The RBC is disc-shaped and concave on both sides. The concave shape increases the cells' surface area, which allows them to distribute more oxygen to the body's cells. The shape also enables the cells to bunch together more compactly, helping them travel through the bloodstream more efficiently. Some RBCs are a bit thicker or thinner, wider or longer than others, but can change their shape to suit the demands of their environment. The cell membranes of the RBCs are protein meshes that give them flexibility, allowing them to navigate the twists and turns of the blood vessel network. The nearly 300 million hemoglobin molecules contained within each RBC easily move and slide past each other within the cell, adjusting their positions to conform to the RBC's shifting shape. Diameter : 7 μm

Image by TheVisualMD

Capillary Revealing Red Blood Cell

A portion of a capillary wall has been cut away to reveal the red blood cells flowing within.

Image by TheVisualMD

Red Blood Cell and White Blood Cell

Medical visualization of red blood cells and leukocytes.

Image by TheVisualMD

Blood Smear Showing Normal Red Blood Cell Count

Individual blood cells were first detected and described in the 17th century. Later, red blood cells were counted manually from a blood smear, a thin film of blood prepared on a glass slide and examined under a microscope. Blood analysis is now automated, though blood smears are still used to detect visible abnormalities and to check or confirm the results of other tests. There are normally between 4.2-5.8 million red blood cells per microliter (about a drop), which means there are 20-30 trillion red blood cells circulating through the body of an adult.

Image by TheVisualMD

Tubule of Nephron Revealing Many Red Blood Cell

This image shows the cut distal convoluted tubule of nephron with surrounding capillaries cut to reveal many red blood cells and healthy amounts of Erythopoeitin, EPO, (yellow particles). Erythropoeitin, EPO, is produced by the endothelial cells of the capillaries and the fibroblasts in the interstitial tissue surrounding the distal tubules. Normally, the kidneys produce EPO in response to low oxygen levels in order to stimulate red blood cell production in the bone marrow. A normal amount of red blood cells allows for the delivery of an adequate supply of oxygen.

Image by TheVisualMD

Red Blood Cell in Capillary

This image shows red blood cells traveling through capillaries, the smallest blood vessels in the body.

Image by TheVisualMD

Tubule of Nephron Revealing Few Red Blood Cell

Our kidneys are remarkable filters. Each day, they filter about 200 quarts of blood to extract about 2 quarts of wastes, which is then eliminated as urine. The kidneys' delicate filtration units are called nephrons; each kidney has about a million nephrons, and within each nephron are dense forests of tiny capillaries called glomeruli, which remove waste products from the blood while preventing the loss of other components, including proteins, electrolytes and blood cells. The glomerular filtration rate is the amount of blood that is filtered by the glomeruli per minute.

Image by TheVisualMD

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Complete Blood Count, and Baselining Your Health

Video Topics : Our lifeblood consists of many components and a complete blood count (CBC) includes measurements of the fundamental elements. The largest categories are red and white blood cells (RBCs and WBCs) and cell fragments called platelets, which play roles in blood clotting. There are 20-30 trillion red blood cells in the body of an adult, each with a lifespan of about 100 days (RBCs contain an iron-containing protein called hemoglobin that enables them to carry oxygen to tissues throughout the body and then return carbon dioxide to the lungs). WBCs are in the front lines in the body's ongoing fight against harmful viruses, bacteria and even fungus; when a pathogen enters the body, WBCs mobilize in a coordinated defense response to eliminate, neutralize or mark the invader for destruction. The liquid portion of blood is called plasma and it carries nutrients, electrolytes, waste products, and hormones.

Video by TheVisualMD

Red Blood Cell (RBC) Indices (Anemia Labs)

Video by Nursing School Explained/YouTube

WellnessFX: Red Blood Cell Indices Part 1 with Bryan Walsh

Video by WellnessFX/YouTube

WellnessFX: Red Blood Cell Indices Part 2 with Bryan Walsh

Video by WellnessFX/YouTube

Red Blood Cells Nursing Considerations, Normal Range, Nursing Care, Lab Values Nursing

Video by NURSINGcom/YouTube

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Flowing Red Blood Cell (RBC)

Animation of red blood cells flowoing quicly through a blood vessel. The camera is positioned in the lumen of the vessel and the rbc's are flowing towards the viewer. The rbc and and lumen are rendered with muted colors to give it a softer look.

Video by TheVisualMD

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Red Blood Cell Development

This video explains red blood cell development, following a pluripotent stem cell to red blood cell.

Video by TheVisualMD

Red blood cells

John Kalekos of Massachusetts image distribution for Science and Learning

Red Blood Cell

TheVisualMD

Red Blood Cell in Capillary

TheVisualMD

Blood Smear Showing Reduced Red Blood Cell Count

TheVisualMD

Red Blood Cell (RBC)

TheVisualMD

Red Blood Cell

TheVisualMD

Capillary Revealing Red Blood Cell

TheVisualMD

Red Blood Cell and White Blood Cell

TheVisualMD

Blood Smear Showing Normal Red Blood Cell Count

TheVisualMD

Tubule of Nephron Revealing Many Red Blood Cell

TheVisualMD

Red Blood Cell in Capillary

TheVisualMD

Tubule of Nephron Revealing Few Red Blood Cell

TheVisualMD

2:12

Complete Blood Count, and Baselining Your Health

TheVisualMD

7:45

Red Blood Cell (RBC) Indices (Anemia Labs)

Nursing School Explained/YouTube

33:35

WellnessFX: Red Blood Cell Indices Part 1 with Bryan Walsh

WellnessFX/YouTube

28:05

WellnessFX: Red Blood Cell Indices Part 2 with Bryan Walsh

WellnessFX/YouTube

3:01

Red Blood Cells Nursing Considerations, Normal Range, Nursing Care, Lab Values Nursing

NURSINGcom/YouTube

0:12

Flowing Red Blood Cell (RBC)

TheVisualMD

0:31

Red Blood Cell Development

TheVisualMD

White Blood Cells

White Blood Count (WBC)

Also called: WBC, WBC Blood Test, White Blood Count, White Blood Cell Count, Leukocyte Count, Leukopenia Test, Leukocytosis Test

A white blood count measures the number of white cells in your blood. White blood cells are part of the immune system. A count that is too high or too low can indicate an infection, immune system disorder, or another health problem.

White Blood Count (WBC)

Also called: WBC, WBC Blood Test, White Blood Count, White Blood Cell Count, Leukocyte Count, Leukopenia Test, Leukocytosis Test

A white blood count measures the number of white cells in your blood. White blood cells are part of the immune system. A count that is too high or too low can indicate an infection, immune system disorder, or another health problem.

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Use the slider below to see how your results affect your health.
4500
11000
Your result is Normal.
Normally, people produce about 100 billion white blood cells (WBCs) a day. The total white blood cell count normally ranges between 4,500 and 11,000 WBCs per microliter.
Related conditions
A white blood count measures the number of white cells in your blood. White blood cells are part of the immune system. They help your body fight off infections and other diseases.
When you get sick, your body makes more white blood cells to fight the bacteria, viruses, or other foreign substances causing your illness. This increases your white blood count.
Other diseases can cause your body to make fewer white blood cells than you need. This lowers your white blood count. Diseases that can lower your white blood count include some types of cancer and HIV/AIDS, a viral disease that attacks white blood cells. Certain medicines, including chemotherapy, may also lower the number of your white blood cells.
There are five major types of white blood cells:
- Neutrophils
- Lymphocytes
- Monocytes
- Eosinophils
- Basophils
A white blood count measures the total number of these cells in your blood. Another test, called a blood differential, measures the amount of each type of white blood cell.
Other names: WBC count, white cell count, white blood cell count
A white blood count is most often used to help diagnose disorders related to having a high white blood cell count or low white blood cell count.
Disorders related to having a high white blood count include:
- Autoimmune and inflammatory diseases, conditions that cause the immune system to attack healthy tissues
- Bacterial or viral infections
- Cancers such as leukemia and Hodgkin disease
- Allergic reactions
Disorders related to having a low white blood count include:
- Diseases of the immune system, such as HIV/AIDS
- Lymphoma, a cancer of the bone marrow
- Diseases of the liver or spleen
A white blood count can show if the number of your white blood cells is too high or too low, but it can't confirm a diagnosis. So it is usually done along with other tests, such as a complete blood count, blood differential, blood smear, and/or bone marrow test.
You may need this test if you have signs of an infection, inflammation, or autoimmune disease. Symptoms of infection include:
- Fever
- Chills
- Body aches
- Headache
Symptoms of inflammation and autoimmune diseases will be different, depending on the area of inflammation and type of disease.
You may also need this test if you have a disease that weakens your immune system or are taking medicine that lowers your immune response. If the test shows your white blood count is getting too low, your provider may be able to adjust your treatment.
Your newborn or older child may also be tested as part of a routine screening, or if they have symptoms of a white blood cell disorder.
A high white blood count may mean you have one of the following conditions:
- A bacterial or viral infection
- An inflammatory disease such as rheumatoid arthritis
- An allergy
- Leukemia or Hodgkin disease
- Tissue damage from a burn injury or surgery
A low white blood count may mean you have one of the following conditions:
- Bone marrow damage. This may be caused by infection, disease, or treatments such as chemotherapy.
- Cancers that affect the bone marrow
- An autoimmune disorder, such as lupus (or SLE)
- HIV/AIDS
If you are already being treated for a white blood cell disorder, your results may show if your treatment is working or whether your condition has improved.
If you have questions about your results, talk to your health care provider.
White blood count results are often compared with results of other blood tests, including a blood differential. A blood differential test shows the amount of each type of white blood cell, such as neutrophils or lymphocytes. Neutrophils mostly target bacterial infections. Lymphocytes mostly target viral infections.
- A higher than normal amount of neutrophils is known as neutrophilia.
- A lower than normal amount is known as neutropenia.
- A higher than normal amount of lymphocytes is known as lymphocytosis.
- A lower normal amount is known as lymphopenia.
1. White Blood Count (WBC): MedlinePlus Medical Test [accessed on Jan 20, 2024]
2. WBC count: MedlinePlus Medical Encyclopedia [accessed on Jan 20, 2024]
3. White Blood Cell Count (WBC Blood Test) - Testing.com. Sep 28, 2022 [accessed on Jan 20, 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 (37)

White Blood Cell Count: Bone Marrow

Disease or damage to the bone marrow, caused by infection, cancer, radiation treatment, or chemotherapy can lower white blood cell count by impairing the marrow's ability to produce new white blood cells.

Image by TheVisualMD

White Blood Cells, Bone Marrow

Bone marrow is constantly producing blood cells, including white blood cells and red blood cells as well platelets, which are cell fragments important for blood clotting. Disease and disorders of the bone marrow can, in turn, affect the production of blood cells. Both cancer and cancer treatment (chemotherapy and radiation) can also have an impact on the bone marrow's ability to produce blood cells.

Image by TheVisualMD

This browser does not support the video element.

Complete Blood Count, and Baselining Your Health

Video Topics : Our lifeblood consists of many components and a complete blood count (CBC) includes measurements of the fundamental elements. The largest categories are red and white blood cells (RBCs and WBCs) and cell fragments called platelets, which play roles in blood clotting. There are 20-30 trillion red blood cells in the body of an adult, each with a lifespan of about 100 days (RBCs contain an iron-containing protein called hemoglobin that enables them to carry oxygen to tissues throughout the body and then return carbon dioxide to the lungs). WBCs are in the front lines in the body's ongoing fight against harmful viruses, bacteria and even fungus; when a pathogen enters the body, WBCs mobilize in a coordinated defense response to eliminate, neutralize or mark the invader for destruction. The liquid portion of blood is called plasma and it carries nutrients, electrolytes, waste products, and hormones.

Video by TheVisualMD

The Immune System Explained I – Bacteria Infection

Video by Kurzgesagt – In a Nutshell/YouTube

Immune Response to Bacteria

Video by NIAID/YouTube

Immunology - Adaptive Immune System

Video by Armando Hasudungan/YouTube

Immune System - Natural Killer Cell

Video by Kyle Thornthwaite/YouTube

Your Immune System: Natural Born Killer - Crash Course Biology #32

Video by CrashCourse/YouTube

White Blood Cell and Red Blood Cell

Medical visualization of blood cells. Depicted are numerous red blood cells and a single white blood cell.

Image by TheVisualMD

White Blood Cell and Red Blood Cell

Medical visualization of blood cells. Depicted are numerous red blood cells and a single white blood cell.

Image by TheVisualMD

Red Blood Cell and White Blood Cell

Visualization of red blood cells and a white blood cell

Image by TheVisualMD

Sensitive content

This media may include sensitive content

Blood cells (from left to right: erythrocyte, thrombocyte, leukocyte)

A single drop of blood contains millions of red blood cells, white blood cells, and platelets. One of each type is shown here, isolated from a scanning electron micrograph.

Image by Electron Microscopy Facility at The National Cancer Institute at Frederick (NCI-Frederick)

Bone structure

Anatomy of the bone. The bone is made up of compact bone, spongy bone, and bone marrow. Compact bone makes up the outer layer of the bone. Spongy bone is found mostly at the ends of bones and contains red marrow. Bone marrow is found in the center of most bones and has many blood vessels. There are two types of bone marrow: red and yellow. Red marrow contains blood stem cells that can become red blood cells, white blood cells, or platelets. Yellow marrow is made mostly of fat.

Image by Smart Servier website

Blood Cells

Formed Elements of Blood

Image by Blausen.com staff (2014). \"Medical gallery of Blausen Medical 2014\"

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

White blood cells

Immune cells surrounding hair follicles in mouse skin. These hair follicles are home to a diverse array of commensal bacteria.

Image by NIAID

Neutrophil

Neutrophil function, relationship to disease, and location in the human body. Credit: NIAID

Image by NIAID

Innate immune system

Image by US Gov

Macrophage Capturing Foreign Antigen

Cell-mediated immunity is an immune response that does not involve antibodies or complement but rather involves the activation of macrophages, natural killer cells (NK), antigen-specific cytotoxic T-lymphocytes, and the release of various cytokines in response to an antigen. Macrophages are white blood cells that engulf and digest cellular debris and pathogens

Image by TheVisualMD

Mast Cell

Mast cells produce histamine. Histamine is known for its role in inflammation. It affects a variety of behavior patterns including the sleep-wake cycle and food intake. Antihistamines may work at odds with inflammation and depression.

Image by TheVisualMD

Leukocytes

Image by OpenStax College

Innate immune system

Illustration of the Innate Immune System responding to injury.

Image by OpenStax College

Eosinophilia

Drawing of an eosinophil white blood cell

Image by Iceclanl

Two neutrophils among many red blood cells. Neutrophils are one type of cell affected by chronic granulomatous disease.

Image by Uploaded by Mgiganteus

Eosinophils

Eosinophil function, relationship to disease, and location in the human body.

Image by NIAID

Sensitive content

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Blood Cells

This is a scanning electron microscope image from normal circulating human blood. One can see red blood cells, several white blood cells including lymphocytes, amonocyte, a neutrophil, and many small disc-shaped platelets. Red cells are nonnucleated and contain hemoglobin, an important protein that contains iron and allows the cell to carry oxygen to other parts of the body. They also carry carbon dioxide away from peripheral tissue to the lungs where it can be exhaled. The infection-fighting white blood cells are classified in two main groups: granular and agranular. All blood cells are formed in the bone marrow. There are two types of agranulocytes: lymphocytes, which fight disease by producing antibodies and thus destroying foreign material, and monocytes. Platelets are tiny cells formed in bone marrow and are necessary for blood clotting.

Image by Bruce Wetzel (photographer). Harry Schaefer (photographer), National Cancer Institute

Immune System and Autoimmune Diseases

Normally, an individual's immune system learns to identify and ignore all of the distinctive little structures found on that individual's own cells. Sometimes, however, it will make a mistake and identify its own body as foreign. If that happens, the immune system produces antibodies that attempt to destroy the body's own cells in the same way it would try to destroy a foreign invader.

Image by TheVisualMD

Eosinophils

Drawing of an eosinophil white blood cell

Image by BruceBlaus

Eosinophils

On the left there is a segmented polymorphonuclear neutrophil, on the right and below is one eosinophil leucocyte. For comparison the red blood cell have a diameter of 7-8 micrometers. The picture was taken with a Nikon Eclipse 600 microscope, magnification was 1000x.

Image by Davidcsaba Dr. David Csaba L.

Neutrophil action - Inflammation

Neutrophil granulocyte migrates from the blood vessel to the matrix, secreting proteolytic enzymes, in order to dissolve intercellular connections (for improvement of its mobility) and envelop bacteria through Phagocytosis.

Image by Uwe Thormann/Wikimedia

Neutrophil

Image by BruceBlaus

White Blood Cells

A type of immune cell. Most white blood cells are made in the bone marrow and are found in the blood and lymph tissue. White blood cells help the body fight infections and other diseases. Granulocytes, monocytes, and lymphocytes are white blood cells.

Image by Blausen.com staff (2014). "Medical gallery of Blausen Medical 2014"

high white blood cell count Video

Video by itbestshop/YouTube

What Are White Blood Cells | Health | Biology | FuseSchool

Video by FuseSchool - Global Education/YouTube

Learning to Decode Your Blood Test Results for Chronic Lymphocytic Leukemia (CLL)

Video by CLL Society/YouTube

WellnessFX: White Blood Cells And Differential with Bryan Walsh

Video by WellnessFX/YouTube

White Blood Count

White Blood Count

Image by TheVisualMD

White Blood Cell Count: Bone Marrow

TheVisualMD

White Blood Cells, Bone Marrow

TheVisualMD

2:12

Complete Blood Count, and Baselining Your Health

TheVisualMD

6:49

The Immune System Explained I – Bacteria Infection

Kurzgesagt – In a Nutshell/YouTube

1:47

Immune Response to Bacteria

NIAID/YouTube

14:59

Immunology - Adaptive Immune System

Armando Hasudungan/YouTube

3:02

Immune System - Natural Killer Cell

Kyle Thornthwaite/YouTube

15:02

Your Immune System: Natural Born Killer - Crash Course Biology #32

CrashCourse/YouTube

White Blood Cell and Red Blood Cell

TheVisualMD

White Blood Cell and Red Blood Cell

TheVisualMD

Red Blood Cell and White Blood Cell

TheVisualMD

Sensitive content

This media may include sensitive content

Blood cells (from left to right: erythrocyte, thrombocyte, leukocyte)

Electron Microscopy Facility at The National Cancer Institute at Frederick (NCI-Frederick)

Bone structure

Smart Servier website

Blood Cells

Blausen.com staff (2014). \"Medical gallery of Blausen Medical 2014\"

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

White blood cells

NIAID

Neutrophil

NIAID

Innate immune system

US Gov

Macrophage Capturing Foreign Antigen

TheVisualMD

Mast Cell

TheVisualMD

Leukocytes

OpenStax College

Innate immune system

OpenStax College

Eosinophilia

Iceclanl

Two neutrophils among many red blood cells. Neutrophils are one type of cell affected by chronic granulomatous disease.

Uploaded by Mgiganteus

Eosinophils

NIAID

Sensitive content

This media may include sensitive content

Blood Cells

Bruce Wetzel (photographer). Harry Schaefer (photographer), National Cancer Institute

Immune System and Autoimmune Diseases

TheVisualMD

Eosinophils

BruceBlaus

Eosinophils

Davidcsaba Dr. David Csaba L.

Neutrophil action - Inflammation

Uwe Thormann/Wikimedia

Neutrophil

BruceBlaus

White Blood Cells

Blausen.com staff (2014). "Medical gallery of Blausen Medical 2014"

8:22

high white blood cell count Video

itbestshop/YouTube

3:12

What Are White Blood Cells | Health | Biology | FuseSchool

FuseSchool - Global Education/YouTube

1:17:17

Learning to Decode Your Blood Test Results for Chronic Lymphocytic Leukemia (CLL)

CLL Society/YouTube

16:52

WellnessFX: White Blood Cells And Differential with Bryan Walsh

WellnessFX/YouTube

White Blood Count

TheVisualMD

Platelets

Platelet Count

Also called: Platelets, PLT Count, Platelet Adequacy, Thrombocyte Count, Thrombocytopenia Test, Thrombocytosis Test, Platelet count

A platelet count test measures the number of platelets in your blood. Platelets, also known as thrombocytes, are small blood cells that are essential for blood clotting. Platelets may be counted to monitor or diagnose diseases, or to look for the cause of too much bleeding or clotting.

Platelet Count

Also called: Platelets, PLT Count, Platelet Adequacy, Thrombocyte Count, Thrombocytopenia Test, Thrombocytosis Test, Platelet count

A platelet count test measures the number of platelets in your blood. Platelets, also known as thrombocytes, are small blood cells that are essential for blood clotting. Platelets may be counted to monitor or diagnose diseases, or to look for the cause of too much bleeding or clotting.

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Use the slider below to see how your results affect your health.
(10³)/μL
50
150
450
Your result is Normal.
A normal platelet count ranges from 150,000 to 450,000 platelets per microliter of blood. Platelets are tiny blood cells that are made in the bone marrow from larger cells. When you are injured, platelets stick together to form a plug to seal your wound. This plug is called a blood clot.
Related conditions
You may need platelet count testing if you have symptoms of having too few or too many platelets.
Symptoms of too few platelets include:
- Prolonged bleeding after a minor cut or injury
- Nosebleeds
- Unexplained bruising
- Pinpoint sized red spots on the skin, known as petechiae
- Purplish spots on the skin, known as purpura. These may be caused by bleeding under the skin.
- Heavy and/or prolonged menstrual periods
Symptoms of too many platelets include:
- Numbness of hands and feet
- Headache
- Dizziness
- Weakness
If your results show a lower than normal platelet count (thrombocytopenia), it may indicate:
- A cancer that affects the blood, such as leukemia or lymphoma
- A viral infection, such as mononucleosis, hepatitis, or measles
- An autoimmune disease. This is a disorder that causes the body to attack its own healthy tissues, which can include platelets.
- Infection or damage to the bone marrow
- Cirrhosis
- Vitamin B12 deficiency
- Gestational thrombocytopenia, a common, but mild, low-platelet condition affecting pregnant women. It is not known to cause any harm to a mother or her unborn baby. It usually gets better on its own during pregnancy or after birth.
If your results show a higher than normal platelet count (thrombocytosis), it may indicate:
- Certain types of cancer, such as lung cancer or breast cancer
- Anemia
- Inflammatory bowel disease
- Rheumatoid arthritis
- A viral or bacterial infection
1. Platelet Tests: MedlinePlus Medical Test [accessed on Jan 20, 2024]
2. Platelet Count (PLT) Blood Test - Testing.com. Dec 19, 2023 [accessed on Jan 20, 2024]
3. Platelet count: MedlinePlus Medical Encyclopedia [accessed on Jan 20, 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 (8)

Platelet Development

Illustration of Platelet Development

Image by OpenStax College

Sensitive content

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Platelet Disorders

From left to right: erythrocyte, thrombocyte, leukocyte

Image by Electron Microscopy Facility at The National Cancer Institute at Frederick (NCI-Frederick)

Scheme of a blood sample after centrifugation

scheme of a blood sample after centrifugation

Image by KnuteKnudsen (talk)

Decode Your Blood Test: Platelets 💉 | Merck Manual Consumer Version

Video by Merck Manuals/YouTube

This browser does not support the video element.

Complete Blood Count, and Baselining Your Health

Video Topics : Our lifeblood consists of many components and a complete blood count (CBC) includes measurements of the fundamental elements. The largest categories are red and white blood cells (RBCs and WBCs) and cell fragments called platelets, which play roles in blood clotting. There are 20-30 trillion red blood cells in the body of an adult, each with a lifespan of about 100 days (RBCs contain an iron-containing protein called hemoglobin that enables them to carry oxygen to tissues throughout the body and then return carbon dioxide to the lungs). WBCs are in the front lines in the body's ongoing fight against harmful viruses, bacteria and even fungus; when a pathogen enters the body, WBCs mobilize in a coordinated defense response to eliminate, neutralize or mark the invader for destruction. The liquid portion of blood is called plasma and it carries nutrients, electrolytes, waste products, and hormones.

Video by TheVisualMD

Platelets Nursing Considerations, Normal Range, Nursing Care, Lab Values Nursing

Video by NURSINGcom/YouTube

Platelets Explained in Two Minutes

Video by American Red Cross/YouTube

The life and times of RBCs and platelets

Video by khanacademymedicine/YouTube

Platelet Development

OpenStax College

Sensitive content

This media may include sensitive content

Platelet Disorders

Electron Microscopy Facility at The National Cancer Institute at Frederick (NCI-Frederick)

Scheme of a blood sample after centrifugation

KnuteKnudsen (talk)

0:48

Decode Your Blood Test: Platelets 💉 | Merck Manual Consumer Version

Merck Manuals/YouTube

2:12

Complete Blood Count, and Baselining Your Health

TheVisualMD

3:54

Platelets Nursing Considerations, Normal Range, Nursing Care, Lab Values Nursing

NURSINGcom/YouTube

1:47

Platelets Explained in Two Minutes

American Red Cross/YouTube

10:35

The life and times of RBCs and platelets

khanacademymedicine/YouTube

Hemoglobin

Hemoglobin Blood Test

Also called: Hemoglobin, Hgb

A hemoglobin test measures the levels of hemoglobin in your blood. Hemoglobin is an iron-rich protein in red blood cells that carries oxygen. Abnormal levels may mean you have anemia or another blood disorder.

Hemoglobin Blood Test

Also called: Hemoglobin, Hgb

A hemoglobin test measures the levels of hemoglobin in your blood. Hemoglobin is an iron-rich protein in red blood cells that carries oxygen. Abnormal levels may mean you have anemia or another blood disorder.

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Use the slider below to see how your results affect your health.
g/dL
13.8
17.2
Your result is Normal.
Heme, an iron-containing molecule, combines with globin proteins to form hemoglobin, which carries oxygen in red blood cells from the lungs to the rest of the body.
Related conditions
Your health care provider may order the test as part of a routine exam, or if you have:
- Symptoms of anemia, which include weakness, dizziness, and cold hands and feet
- A family history of thalassemia, sickle cell anemia, or other inherited blood disorder
- A diet low in iron and other minerals
- A long-term infection
- Excessive blood loss from an injury or surgical procedure
There are many reasons your hemoglobin levels may not be in the normal range.
Low hemoglobin levels may be a sign of:
- Different types of anemia
- Thalassemia
- Iron deficiency
- Liver disease
- Cancer and other diseases
High hemoglobin levels may be a sign of:
- Lung disease
- Heart disease
- Polycythemia vera, a disorder in which your body makes too many red blood cells. It can cause headaches, fatigue, and shortness of breath.
If any of your levels are abnormal, it doesn't always mean you have a medical condition that needs treatment. Diet, activity level, medicines, a menstrual period, and other factors can affect the results. You may also have higher than normal hemoglobin levels if you live in a high altitude area. Talk with your provider to learn what your results mean.
1. Hemoglobin Test: MedlinePlus Medical Test [accessed on Jan 20, 2024]
2. Hemoglobin: MedlinePlus Medical Encyclopedia [accessed on Jan 20, 2024]
3. Hemoglobin - Health Encyclopedia - University of Rochester Medical Center [accessed on Jan 20, 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 (16)

Hemoglobin | Human anatomy and physiology | Health & Medicine | Khan Academy

Video by Khan Academy/YouTube

Blood, Part 2 - There Will Be Blood: Crash Course A&P #30

Video by CrashCourse/YouTube

Haemoglobin

Video by Wellcome Trust/YouTube

Hemoglobin A1c & Diabetes

Video by DiabeTV/YouTube

Hemoglobin Molecule

Molecule of hemoglobin.

Image by TheVisualMD

Hemoglobin A1C Molecule

Hemoglobin is a protein found inside red blood cells that carries oxygen from the lungs to cells throughout the body. Hemoglobin also binds with glucose. Diabetics have too much glucose in the bloodstream and this extra glucose binds (or glycates) with hemoglobin. Glycated hemoglobin usually stays glycated for the life of the red blood cell (about 3 months). Therefore, the percentage of hemoglobin that is glycated (measured as A1C) reflects glucose levels that have affected red blood cells up to 3 months in the past. The hemoglobin A1C test measures the percentage of hemoglobin bound to blood sugar (glucose); the test is used to diagnose type 1 and type 2 diabetes. Because the test results reflect average blood sugar levels over a period of 2-3 months (rather than daily fluctuations), the hemoglobin A1C test is also used to gauge how well patients are managing their diabetes over time.

Image by TheVisualMD

Hemoglobin A1C: Red Blood Cells

Red blood cells use the iron-rich protein hemoglobin to carry oxygen from the lungs to cells throughout the body and return carbon dioxide to the lungs. The percentage of hemoglobin bound to blood glucose (hemoglobin A1C) is used to diagnose diabetes.

Image by TheVisualMD

Hemoglobin of Red Blood Cell

Hemoglobin is an iron-containing protein found in red blood cells that binds oxygen and carbon dioxide for transport and delivery to different parts of the body.

Image by TheVisualMD

Hemoglobin Molecule

Hemoglobin is an iron-rich protein that is packed inside RBCs. It is a structurally complex molecule that can change shape to either hold or release oxygen, depending on the body's need. There are close to 300 million hemoglobin molecules within each RBC.

Image by TheVisualMD

Hemoglobin Molecule Heme Group

A heme group in a hemoglobin molecule consists of an iron atom bound equally to four nitrogen atoms, all lying in one plane. The iron atom is the site of oxygen binding.

Image by TheVisualMD

This browser does not support the video element.

Hemoglobin Within Red Blood Cell (RBC)

A red blood cell rushes toward the camera, the camera enters the cell to focus on all of the hemoglobin molecules within

Video by TheVisualMD

Hemoglobin, Carbon Monoxide

Hemoglobin is an iron-containing protein that enables red blood cells to deliver oxygen from the lungs to cells throughout the body. But the same binding site on the hemoglobin molecule has an even stronger affinity for carbon monoxide, which is why we are so susceptible to poisoning by this deadly gas; carbon monoxide grabs all the binding sites and starves the body's tissues of oxygen

Image by TheVisualMD

This browser does not support the video element.

Hemoglobin A1c

The hemoglobin A1c test measures the percentage of hemoglobin bound to blood sugar (glucose); the test is used to diagnose type 1 and type 2 diabetes. Because the test results reflect average blood sugar levels over a period of 2-3 months (rather than daily fluctuations), the hemoglobin A1C test is also used to gauge how well patients are managing their diabetes over time.

Video by TheVisualMD

Hemoglobin A1c

The hemoglobin A1c test measures the percentage of hemoglobin bound to blood sugar (glucose); the test is used to diagnose type 1 and type 2 diabetes. Because the test results reflect average blood sugar levels over a period of 2-3 months (rather than daily fluctuations), the hemoglobin A1C test is also used to gauge how well patients are managing their diabetes over time.

Image by TheVisualMD

Hemoglobin: O2 Binding Hemoglobin

Hemoglobin normally binds to life-sustaining oxygen. But the same binding site on the hemoglobin molecule has an even stronger affinity for carbon monoxide, which is why we are so susceptible to poisoning by this deadly gas.

Image by TheVisualMD

HemoglobinA1C

Hemoglobin Test for O2 Binding Hemoglobin : A hemoglobin test is a measurement of your blood's oxygen-carrying capacity. High levels of hemoglobin can be the result of dehydration, lung disease and other conditions. Low levels of hemoglobin indicate that there is a shortage of red blood cells; this can be the result of RBCs being lost or destroyed too quickly or produced too slowly. Hemoglobin is an iron-containing protein that enables red blood cells to deliver oxygen from the lungs to cells throughout the body. But the same binding site on the hemoglobin molecule has an even stronger affinity for carbon monoxide, which is why we are so susceptible to poisoning by this deadly gas; carbon monoxide grabs all the binding sites and starves the body's tissues of oxygen.

Image by TheVisualMD

14:34

Hemoglobin | Human anatomy and physiology | Health & Medicine | Khan Academy

Khan Academy/YouTube

10:01

Blood, Part 2 - There Will Be Blood: Crash Course A&P #30

CrashCourse/YouTube

5:31

Haemoglobin

Wellcome Trust/YouTube

1:43

Hemoglobin A1c & Diabetes

DiabeTV/YouTube

Hemoglobin Molecule

TheVisualMD

Hemoglobin A1C Molecule

TheVisualMD

Hemoglobin A1C: Red Blood Cells

TheVisualMD

Hemoglobin of Red Blood Cell

TheVisualMD

Hemoglobin Molecule

TheVisualMD

Hemoglobin Molecule Heme Group

TheVisualMD

0:27

Hemoglobin Within Red Blood Cell (RBC)

TheVisualMD

Hemoglobin, Carbon Monoxide

TheVisualMD

0:27

Hemoglobin A1c

TheVisualMD

Hemoglobin A1c

TheVisualMD

Hemoglobin: O2 Binding Hemoglobin

TheVisualMD

HemoglobinA1C

TheVisualMD

Hematocrit

Hematocrit Blood Test

Also called: Hematrocit, HCT, Crit, Packed Cell Volume, PCV

Hematocrit is a blood test that measures how much of a person's blood is made up of red blood cells. Hematocrit levels that are too high or too low can be a sign of a blood disorder, dehydration, or other medical conditions that affect your blood.

Hematocrit Blood Test

Also called: Hematrocit, HCT, Crit, Packed Cell Volume, PCV

Hematocrit is a blood test that measures how much of a person's blood is made up of red blood cells. Hematocrit levels that are too high or too low can be a sign of a blood disorder, dehydration, or other medical conditions that affect your blood.

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Use the slider below to see how your results affect your health.
%
40.7
50.3
Your result is Normal.
Normal hematocrit levels vary based on age and race. In adults, normal levels for men range from 41%-50%. For women, the normal range is slightly lower: 36%-44%.
Related conditions
Your health care provider may order a hematocrit test as part of your regular checkup or to monitor your health if you are being treated for cancer or have an ongoing health condition. Your provider may also order this test if you have symptoms of a red blood cell disorder, such as anemia or polycythemia:
Symptoms of anemia (too few red blood cells) may include:
- Shortness of breath
- Weakness or fatigue
- Headache
- Dizziness
- Arrhythmia (a problem with the rate or rhythm of your heartbeat)
Symptoms of polycythemia (too many red blood cells) may include:
- Headache
- Feeling light-headed or dizzy
- Shortness of breath
- Weakness or fatigue
- Skin symptoms such as itching after a shower or bath, burning, or a red face
- Heavy sweating, especially during sleep
- Blurred or double vision and blind spots
- Bleeding gums and heavy bleeding from small cuts
Your hematocrit test results are reported as a number. That number is the percentage of your blood that's made of red blood cells. For example, if your hematocrit test result is 42, it means that 42% of your blood is red blood cells and the rest is white blood cells, platelets, and blood plasma.
A hematocrit level that's lower than normal may be a sign that:
- Your body doesn't have enough red blood cells (anemia). There are many types of anemia that can be caused by different medical conditions.
- Your body is making too many white blood cells, which may be caused by:
  Bone marrow disease
  Certain cancers, including leukemia, lymphoma, multiple myeloma, or cancers that spread to the bone marrow from other parts of the body
A hematocrit level that's higher than normal may be a sign that:
- Your body is making too many red blood cells, which may be caused by:
  Lung disease
  Congenital heart disease
  Heart failure
  Polycythemia
- Your blood plasma level is too low, which may be caused by:
  Dehydration, the most common cause of a high hematocrit
  Shock
If your results are not in the normal range, it doesn't always mean that you have a medical condition that needs treatment. Living at high altitudes where there's less oxygen in the air may cause a high hematocrit. That's because your body responds to low oxygen levels by making more red blood cells so that you get the oxygen you need.
Pregnancy can cause a low hematocrit. That's because the body has more fluid than normal during pregnancy, which decreases the percentage that's made of red blood cells.
To learn what your test results mean, talk with your provider.
1. Hematocrit Test: MedlinePlus Medical Test [accessed on Jan 20, 2024]
2. Hematocrit: MedlinePlus Medical Encyclopedia [accessed on Jan 20, 2024]
3. Hematrocit Blood Test - Testing.com. Sep 13, 2022 [accessed on Jan 20, 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 (30)

This browser does not support the video element.

Complete Blood Count, and Baselining Your Health

Video Topics : Our lifeblood consists of many components and a complete blood count (CBC) includes measurements of the fundamental elements. The largest categories are red and white blood cells (RBCs and WBCs) and cell fragments called platelets, which play roles in blood clotting. There are 20-30 trillion red blood cells in the body of an adult, each with a lifespan of about 100 days (RBCs contain an iron-containing protein called hemoglobin that enables them to carry oxygen to tissues throughout the body and then return carbon dioxide to the lungs). WBCs are in the front lines in the body's ongoing fight against harmful viruses, bacteria and even fungus; when a pathogen enters the body, WBCs mobilize in a coordinated defense response to eliminate, neutralize or mark the invader for destruction. The liquid portion of blood is called plasma and it carries nutrients, electrolytes, waste products, and hormones.

Video by TheVisualMD

Vial of Centrifuged Blood

Blood is made up of red and white blood cell (as well as platelets), suspended in a liquid known as blood plasma. Plasma, which makes up 55% of our blood's volume, is a clear liquid (mainly water) that transports food molecules, hormones, waste as well as a wide range of dissolved chemicals. Red cells, which normally make up 40-50% of total blood volume, are produced continuously in our bone marrow at the rate of about 2-3 million cells per second. White cells make up a very small part of blood's volume-normally only about 1% in healthy people. This image shows two vials of centrifuged blood. The left vial shows healthy amount of red blood cells in female (36-44%) ; The right vial shows healthy amount of red blood cells in male (41-50%). The hematocrit (along with the hemoglobin test) is the central test to diagnosing anemia in that it indicates the amount of RBCs in the blood.

Image by TheVisualMD

Red Blood Cells, Bone Marrow

A skeleton may have a dry and lifeless Halloween image, but bone is actually dynamic, living tissue. Bone is not uniformly solid; within its interior is a network of cavities that house blood vessels and marrow. Bone marrow, particularly in larger bones, is where stem cells give rise to red blood cells (erythrocytes) as well as white blood cells (leukocytes) and blood clotting agents (platelets). As the source of blood cells, the bone marrow is critical to health. Disease or damage to bone marrow can result in either too many or too few blood cells.

Image by TheVisualMD

Anemia: Basic lab tests - hematocrit, hemoglobin, reticulocyte, MCV, morphology

Video by retic20/YouTube

Hematocrit Nursing Considerations, Normal Range, Nursing Care, Lab Values Nursing

Video by NURSINGcom/YouTube

Hematocrit, Dehydration

Blood is composed of cells (primarily red blood cells, but also white blood cells and cell fragments called platelets) along with a liquid portion known as plasma. The ratio of the volume of red blood cells to the volume of plasma is an important health indicator and is known as the hematocrit. The most common cause of a high hematocrit is dehydration, which is usually temporary and easily remedied by increasing fluid intake, thereby restores the balance between RBCs and blood plasma volume.

Image by TheVisualMD

Hematocrit, Anemia

Blood is composed of cells (primarily red blood cells, but also white blood cells and cell fragments called platelets) along with a liquid portion known as plasma. The ratio of the volume of red blood cells to the volume of plasma is an important health indicator and is known as the hematocrit. A low hematocrit usually indicates anemia, which occurs when red blood cells are being either destroyed too quickly or produced too slowly; with fewer red blood cells, less oxygen is delivered to body tissues.

Image by TheVisualMD

Vial of Blood for Hematocrit Test

This image is a vial of blood that has been centrifuged (and thus separated) to determine hematocrit. This vial shows, from top to bottom, 55% plasma, <1% white blood cells, <1% platelets , 45% red blood cells. Hematocrit measures how much of the blood, by volume, is taken up by RBCs. A normal range for hematocrit is 41 to 50 percent in men and 36 to 44 percent in women. In many cases, a reading below the normal range for hematocrit will lead to a diagnosis of CKD-related anemia.This other diagnostic test is the hemoglobin test, which measures the amount of hemoglobin molecules in the blood and is a good indicator of the body's ability to carry oxygen throughout the body.

Image by TheVisualMD

Hematocrit: Bone Marrow

Bone marrow produces about 2 million red blood cells (RBCs) a second to maintain a healthy hematocrit. Many conditions, including kidney disease, chemotherapy, and dietary deficiencies, can reduce RBC production, while others can result in too many RBCs.

Image by TheVisualMD

Hematocrit: Blood Cells

The hematocrit is another way to look at the health of red blood cells (RBCs). Blood is composed of cells (primarily RBCs) and a liquid portion called plasma. The proportions of RBCs and plasma must be kept in balance and this is what the hematocrit measures.

Image by TheVisualMD

Blood

Components of Blood : Blood is mostly made up of plasma and red and white blood cells. But it also contains many other substances as well, like platelets, hormones, nutrients such as glucose, and fats like cholesterol. Blood is the fluid of life, transporting oxygen from the lungs to body tissue and carbon dioxide from body tissue to the lungs.

Image by TheVisualMD

Hematocrit

Hematocrit Blood Vials : If you are at risk for cardiovascular disease, your doctor may order a cholesterol and triglyceride level test as well as a complete blood count (CBC). Abnormal results may be the first clue in determining risk of and in diagnosing cardiovascular disease.

Image by TheVisualMD

Blood Smear Showing Reduced Red Blood Cell Count

Individual blood cells were first detected and described in the 17th century. Later, red blood cells (RBCs) were counted manually from a blood smear, a thin film of blood prepared on a glass slide and examined under a microscope (blood analysis is now automated, though smears are still used to detect visible abnormalities and to check or confirm the results of other tests). Anemia results when there are too few RBCs in circulation because they are being destroyed too quickly or produced too slowly. Anemia can be temporary or long term and range from mild to severe. Folate (also known as vitamin B9) is necessary for red blood cell production and the prevention of anemia, as well as the metabolism of carbohydrates. But folate also plays key roles in the synthesis and maintenance of DNA and is especially important in cell division and growth in fetal development (deficiencies of the vitamin in pregnancy is a common cause of birth defects). Pernicious anemia is a disorder in which the body's loses its ability to utilize folate and vitamin B12.

Image by TheVisualMD

Blood Smear Showing Normal Red Blood Cell Count

Individual blood cells were first detected and described in the 17th century. Later, red blood cells were counted manually from a blood smear, a thin film of blood prepared on a glass slide and examined under a microscope. Blood analysis is now automated, though blood smears are still used to detect visible abnormalities and to check or confirm the results of other tests. There are normally between 4.2-5.8 million red blood cells per microliter (about a drop), which means there are 20-30 trillion red blood cells circulating through the body of an adult.

Image by TheVisualMD

This browser does not support the video element.

Red Blood Cells Carry Oxygen

This video focuses on one of the main components of blood, the red blood cell and its function to carry oxygen. The video begins with revealing the red blood cells and the heart that pumps the oxygenated blood to the rest of the body. Hemoglobin is the protein molecule found in these red blood cells that enable blood to transport oxygen. If the blood's capacity to transport oxygen to the tissues is reduced due to a decrease in the number of red blood cells, anemia may occur.

Video by TheVisualMD

Components of Blood

Components of Blood : Our blood is composed of many different components, the largest categories being red and white blood cells (blood-clotting platelets are another key component) and the liquid portion known as blood plasma. A Complete Blood Count (CBC) includes several of the most basic, yet important, measurements of these components.

Image by TheVisualMD

Blood and Related Conditions

Blood and Related Conditions : Anemia results when there are too few red blood cells circulating in the bloodstream to deliver adequate oxygen to body tissues. There are different types and causes of anemia, including malnutrition, chronic bleeding, and diseases that result in red blood cells either being destroyed too quickly or produced too slowly.

Image by TheVisualMD

Pellet of Lymphocyte Cells Created in the Centrifuge

This photograph shows Wendy Watford, Ph.D. holding a test tube containing isolated lymphocyte cells. The cells were spun in a centrifuge to create a pellet at the bottom of the test tube. The cells will be labeled with CFSE dye, which will stain the membranes of the cells. After culturing the cells for three days she will determine the number of cell divisions that have taken place by measuring the dilution of the CFSE dye. The purpose of the work is to measure the proliferation of lymphocytes under various conditions. The principal investigator for this work is John J. O’Shea, M.D., NIAMS Scientific Director.

Image by NIAMS/Photographer: Rhoda Baer

Red Blood Cells

Digital holographic microscopy (DHM) image of red blood cells.

Image by Egelberg (talk)

Test Tube

Between 5,000 and 8,000 blood serum, fecal, urine, viral and respiratory samples arrive six days a week from U.S. Air Force hospitals and clinics worldwide, as well as some other Department of Defense facilities, for analysis at the Epidemiology Laboratory Service, also known as the "Epi Lab" at the 711th Human Performance Wing’s United States Air Force School of Aerospace Medicine and Public Health at Wright Patterson AFB, Ohio.The lab is a Department of Defense reference laboratory offering clinical diagnostic, public health, and force health screening and testing. (U.S. Air Force photo by J.M. Eddins Jr.)

Image by U.S. Air Force photo by J.M. Eddins Jr.

Phlebotomy

This image was uploaded as part of Wiki Loves e-textbooks contest in Poland.

Image by Sean Michael Ragan

Red Blood Cells Carry Oxygen

This video focuses on one of the main components of blood, the red blood cell and its function to carry oxygen. The video begins with revealing the red blood cells and the heart that pumps the oxygenated blood to the rest of the body. Hemoglobin is the protein molecule found in these red blood cells that enable blood to transport oxygen. If the blood's capacity to transport oxygen to the tissues is reduced due to a decrease in the number of red blood cells, anemia may occur.

Image by TheVisualMD

Composition of Blood

Composition of Blood

Image by OpenStax College

Hematology | Hematocrit

Video by Ninja Nerd/YouTube

Erythrocyte indices (Hemoglobin, Hematocrit, MCV, MCH & MCHC) What Do These Lab Tests Mean?

Video by Medicosis Perfectionalis/YouTube

How to Interpret RBC Indices (e.g. hemoglobin vs. hematocrit, MCV, RDW)

Video by Strong Medicine/YouTube

Haematocrit or PCV

Video by LabsforLifeProject/YouTube

Packed cell volume/ Hematocrit

Video by Pathology Simplified/YouTube

Fetal hemoglobin and hematocrit | Human anatomy and physiology | Health & Medicine | Khan Academy

Video by khanacademymedicine/YouTube

Smoking, Hematocrit, & Fasting Erythropoietin Concentrations

Video by Mayo Proceedings/YouTube

2:12

Complete Blood Count, and Baselining Your Health

TheVisualMD

Vial of Centrifuged Blood

TheVisualMD

Red Blood Cells, Bone Marrow

TheVisualMD

4:32

Anemia: Basic lab tests - hematocrit, hemoglobin, reticulocyte, MCV, morphology

retic20/YouTube

4:40

Hematocrit Nursing Considerations, Normal Range, Nursing Care, Lab Values Nursing

NURSINGcom/YouTube

Hematocrit, Dehydration

TheVisualMD

Hematocrit, Anemia

TheVisualMD

Vial of Blood for Hematocrit Test

TheVisualMD

Hematocrit: Bone Marrow

TheVisualMD

Hematocrit: Blood Cells

TheVisualMD

Blood

TheVisualMD

Hematocrit

TheVisualMD

Blood Smear Showing Reduced Red Blood Cell Count

TheVisualMD

Blood Smear Showing Normal Red Blood Cell Count

TheVisualMD

0:53

Red Blood Cells Carry Oxygen

TheVisualMD

Components of Blood

TheVisualMD

Blood and Related Conditions

TheVisualMD

Pellet of Lymphocyte Cells Created in the Centrifuge

NIAMS/Photographer: Rhoda Baer

Red Blood Cells

Egelberg (talk)

Test Tube

U.S. Air Force photo by J.M. Eddins Jr.

Phlebotomy

Sean Michael Ragan

Red Blood Cells Carry Oxygen

TheVisualMD

Composition of Blood

OpenStax College

10:46

Hematology | Hematocrit

Ninja Nerd/YouTube

8:32

Erythrocyte indices (Hemoglobin, Hematocrit, MCV, MCH & MCHC) What Do These Lab Tests Mean?

Medicosis Perfectionalis/YouTube

7:06

How to Interpret RBC Indices (e.g. hemoglobin vs. hematocrit, MCV, RDW)

Strong Medicine/YouTube

6:14

Haematocrit or PCV

LabsforLifeProject/YouTube

9:16

Packed cell volume/ Hematocrit

Pathology Simplified/YouTube

14:32

Fetal hemoglobin and hematocrit | Human anatomy and physiology | Health & Medicine | Khan Academy

khanacademymedicine/YouTube

6:19

Smoking, Hematocrit, & Fasting Erythropoietin Concentrations

Mayo Proceedings/YouTube

MCV

MCV (Mean Corpuscular Volume) Test

Also called: MCV, MCV Blood Test, Mean Corpuscular Volume, Mean RBC Volume

A mean corpuscular volume (MCV) blood test measures the size of your red blood cells. If blood cells are too small or too large, it may indicate a blood disorder.

MCV (Mean Corpuscular Volume) Test

Also called: MCV, MCV Blood Test, Mean Corpuscular Volume, Mean RBC Volume

A mean corpuscular volume (MCV) blood test measures the size of your red blood cells. If blood cells are too small or too large, it may indicate a blood disorder.

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Use the slider below to see how your results affect your health.
fL
76
96
Your result is Normal.
A normal MCV indicates that the red blood cells are normal average size, or normocytic. Normal results vary based on the laboratory and the method used.
Related conditions
Your health care provider may order a complete blood count, which includes an MCV test, as part of your regular checkup. You may also have the test if you have a chronic (long-lasting) condition that could lead to anemia or if you have the symptoms of anemia:
- Shortness of breath
- Weakness or fatigue
- Headache
- Dizziness
- Arrhythmia (a problem with the rate or rhythm of your heartbeat)
An MCV test alone cannot diagnose any disease. Your provider will use the results of your MCV, other test results, and your medical history to make a diagnosis.
If your results show that your red blood cells are smaller than normal, it may be a sign of:
- Certain types of anemia, including iron-deficiency anemia, the most common type
- Thalassemia, an uncommon genetic condition
If your results show that your red blood cells are larger than normal, it may be a sign of:
- Pernicious anemia, which may be caused by:
  A lack of vitamin B12
  A disease that affects your body's ability to use vitamin B12, such as certain autoimmune diseases, celiac disease, or Crohn's disease.
- Anemia caused by a lack of folic acid
- Liver disease
It's also possible to have anemia with a normal MCV. This may happen if anemia is caused by conditions, such as:
- A sudden loss of blood
- Kidney failure
- Aplastic anemia (uncommon)
If your MCV levels are not in the normal range, it doesn't always mean that you have a medical problem that needs treatment. Diet, activity level, medicines, a menstrual period, and other conditions can affect the test results. Talk with your health care provider to learn what your results mean.
1. MCV (Mean Corpuscular Volume): MedlinePlus Medical Test [accessed on Jan 20, 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 (22)

Microcytic, normocytic, and macrocytic anemias | NCLEX-RN | Khan Academy

Video by khanacademymedicine/YouTube

Non-megaloblastic Macrocytic Anemia

Video by Medicosis Perfectionalis/YouTube

Microcytic anemia | Hematologic System Diseases | NCLEX-RN | Khan Academy

Video by khanacademymedicine/YouTube

Living with and Managing Iron-Deficiency Anemia

Video by NHLBI/YouTube

Hemolytic Anemia

Video by DrER.tv/YouTube

Medical School - Anemia Made Easy

Video by iMedicalSchool/YouTube

Iron deficency anemia diagnosis | Hematologic System Diseases | NCLEX-RN | Khan Academy

Video by khanacademymedicine/YouTube

RBC Indices

Video by Pathology Simplified/YouTube

Anemia: Basic lab tests - hematocrit, hemoglobin, reticulocyte, MCV, morphology

Video by retic20/YouTube

WellnessFX: Red Blood Cell Indices Part 1 with Bryan Walsh

Video by WellnessFX/YouTube

WellnessFX: Red Blood Cell Indices Part 2 with Bryan Walsh

Video by WellnessFX/YouTube

Blood Brain Barrier Endothelium

The blood-brain barrier keeps potentially toxic substances from entering the brain. The semipermeable membrane formed by the tightly spaced cells of capillaries in this area selectively screens out large molecules, while permitting the transport of essential nutrients such as glucose. The endothelium is the cellular lining of the blood vessel and is made up of endothelial cells connected to one another by tight junctions. These are the strongest cell-to-cell adhesions in the body. Toxic materials being transported in the blood are too large to pass through these junctions and exit the blood. Therefore, the brain is protected from exposure to many harmful substances. The barrier is does not, however, prevent fat-soluble materials from entering the brain; this includes alcohol and nicotine.

Image by TheVisualMD

Normal Blood Glucose Levels in Capillary

This image depicts a healthy capillary with normal glucose (pink) and insulin (yellow) levels. Capillaries, the smallest blood vessels in your body, are where nutrients are transferred from blood to cells, and waste from cells to blood. The body's cells depend on sugar in the blood, which is derived from carbohydrates, for food and energy. Allowing for the innumerable differences among individuals, the threshold for a normal blood-sugar (glucose) level in healthy people is 100 mg/dL; that is, 100 milligrams of glucose per deciliter of blood. Lower-than-normal levels characterize hypoglycemia and higher than normal levels characterize hyperglycemia.

Image by TheVisualMD

Cross-Section of Healthy Capillary Blood Vessel with Normal Glucose and Insulin Levels

This image depicts a healthy capillary. Capillaries are the smallest blood vessels in your body and are where the transfer of nutrients from blood to cells and wastes from cells to the blood takes place.The cells of the body depend on sugar in the blood, derived from carbohydrates, for food and energy. Allowing for the innumerable differences among individuals, the threshold for a normal blood-sugar (glucose) level in healthy people is 100 mg/dL; that is, 100 milligrams of glucose per deciliter of blood. Lower-than-normal levels characterize hypoglycemia and higher than normal levels hyperglycemia.

Image by TheVisualMD

Blood Vessels in the Brain

The Blood Brain Barrier and Astrocytes type 1

Image by Ben Brahim Mohammed

Cross-Section of Damaged Capillary Blood Vessel with Very High Glucose and Insulin Levels

This image depicts an unhealthy, damaged capillary with very high levels of insulin and glucose. Capillaries, the smallest blood vessels in your body, are where nutrients are transferred from blood to cells, and waste from cells to the blood The body's cells depend on sugar (glucose) in the blood, which is derived from carbohydrates, for food and energy. Without insulin, glucose is not able to enter cells to be used as fuel. Allowing for the innumerable differences among individuals, the threshold for a normal blood-sugar (glucose) level in healthy people is 100 mg/dL; that is, 100 milligrams of glucose per deciliter of blood. Higher than normal levels lead to hyperglycemia. Hyperglycemia is the hallmark of prediabetes (between 100 and 125 mg/dL) and diabetes (126 mg/dL and higher). It is caused by either too little insulin being released by the pancreas or the body's inability to use insulin properly. Hyperglycemia leads to microangiopathy, marked by endothelial cell apoptosis (programmed cell death), accumulation of AGEs (advanced glycation end products), and thickening of the basement membrane, which can lead to development of lesions, vasoconstriction, and altered vessel function

Blood Components

This image highlights the vital components of blood: 55% plasma Plasma is the liquid river that transports every blood cell to its destination. Oxygen-carrying RBCs couldn't move through arteries, veins and capillaries without it. Even though it is a watery, almost clear fluid, plasma contains many important substances, including blood-clotting agents called platelets and protective proteins called antibodies which help us fight infection. When the clotting agents are removed from blood plasma, it is called serum, which is essential in many life-saving medical situations such as transplant surgery and trauma. <1% white blood cells (wbcs or leukocytes) Some leukocytes are produced in the bone marrow, while others are generated in lymph nodes scattered throughout the body. They are far less numerous than their sister RBCs, but leukocytes are the bedrock of the immune system and are the body's front line of defense. Different types of leukocytes fight infections in different ways. Some target bacterial or fungal infections, while others respond to parasitic threats or allergic reactions. <1% platelets Platelets perform the vital function of clotting blood at wound sites. They are small, even in comparison to the other cells of your blood, but they pack a wallop when it comes to healing a scrape or staunching a more serious wound. When you cut yourself shaving, platelets arrive on the scene like your personal emergency medical team, creating a natural bandage of clotted blood, which eventually forms a scab. 45% red blood cells rbcs or erythrocytes) RBCs are produced in the bone marrow and perform the fundamental task of delivering oxygen to all of the body's cells. The vial is an example of the hematocrit, one of many tests that make up the complete blood count (CBC). Hematocrit measures the volume of RBCs in your blood. A normal hematocrit reading for women is between 36 to 44 percent; for men it's 41 to 50 percent.

Image by TheVisualMD

Test Tube Containing Blood

Visualization of a test tube containing blood. Blood comprises of 55% plasma, 1% platelets and white blood cells, and 45% red blood cells.

Image by TheVisualMD

Blood Smear Showing Reduced Red Blood Cell Count

Individual blood cells were first detected and described in the 17th century. Later, red blood cells (RBCs) were counted manually from a blood smear, a thin film of blood prepared on a glass slide and examined under a microscope (blood analysis is now automated, though smears are still used to detect visible abnormalities and to check or confirm the results of other tests). Anemia results when there are too few RBCs in circulation because they are being destroyed too quickly or produced too slowly. Anemia can be temporary or long term and range from mild to severe. Folate (also known as vitamin B9) is necessary for red blood cell production and the prevention of anemia, as well as the metabolism of carbohydrates. But folate also plays key roles in the synthesis and maintenance of DNA and is especially important in cell division and growth in fetal development (deficiencies of the vitamin in pregnancy is a common cause of birth defects). Pernicious anemia is a disorder in which the body's loses its ability to utilize folate and vitamin B12.

Image by TheVisualMD

Red Blood Cell in Capillary

The cardiovascular system is vast network of arteries, veins and vessels that would extend 60,000 miles if stretched end-to-end. All but a tiny fraction of this vessel network is invisible to the naked eye. The smallest capillaries (from latin "hairlike") are so narrow that red blood cells must pass through in single file. Higher than normal blood iron levels have been linked to heart disease and the reason is believed to be the oxidative stress the excess iron places on the walls of the blood vessels. It is the biological counterpart of rust. There are 20-30 trillion red blood cells (RBCs) in an adult's body. The life span of RBCs, which are produced in bone marrow, is about 100 days, which means that 2 million die (and are replaced) each second, but in that short lifetime they can make 75,000 round trips between lungs, heart and tissues in the body.

Image by TheVisualMD

Kidney and Stem Cell Creating Red Blood Cell. B12 is critical for the creation of red blood cells.

We are used to thinking of our kidneys mostly as hardworking filters that rid our bodies of wastes and excess water. But the kidneys are also constantly monitoring and adjusting levels of key substances in the blood, depending on what the body needs. Specialized cells in the kidney that are very sensitive to low oxygen levels, for example, produce a hormone called erythropoietin (EPO), which in turn promotes the production of red blood cells in the bone marrow. The boost in red blood cells increases the oxygen-carrying capacity of the blood.

Image by TheVisualMD

Healthy Capillary Blood Vessel

Cross-section of Healthy Capillary Blood Vessel with Normal Glucose and Insulin Levels

Cross-Section of Damaged Capillary Blood Vessel with Very High Glucose and Insulin Levels

1

2

3

Healthy Capillary Blood Vessel and and Damaged Capillary Blood Vessel Caused by High Levels of Blood Glucose

1) Healthy Capillary Blood Vessel - This image depicts a healthy capillary. Capillaries are the smallest blood vessels in your body. They can be so thin in diameter that blood cells have to bend in order to pass through. Capillaries are where the transfer of nutrients from the blood to cells, and the transfer of waste from cells to blood, takes place. In a healthy body, the blood vessels are smooth and elastic. 2) Cross-Section of Healthy Capillary Blood Vessel with Normal Glucose and Insulin Levels - This image depicts a healthy capillary. The body's cells depend on sugar in the blood, which is derived from carbohydrates, for food and energy. Allowing for the innumerable differences among individuals, the threshold for a normal blood sugar (glucose, pink) level in healthy people is 100 mg/dL; that is, 100 milligrams of glucose per deciliter of blood. Lower-than-normal levels characterize hypoglycemia and higher-than-normal levels characterize hyperglycemia. Without insulin (yellow), glucose is not able to enter cells to be used as fuel. Because of this, healthy insulin levels are a key factor in keeping blood glucose levels normal. 3) Cross-Section of Damaged Capillary Blood Vessel with Very High Glucose and Insulin Levels - This image depicts an unhealthy, damaged capillary with very high levels of insulin and glucose. Higher than normal levels of blood glucose lead to hyperglycemia. Hyperglycemia is the hallmark of prediabetes (between 100 and 125 mg/dL) and diabetes (126 mg/dL and higher). It is caused by either too little insulin being released by the pancreas or the body's inability to use insulin properly. Hyperglycemia leads to microangiopathy, marked by endothelial cell apoptosis (programmed cell death), accumulation of AGEs (advanced glycation end products), and thickening of the basement membrane, which can lead to the development of lesions, vasoconstriction, and altered vessel function

Interactive by TheVisualMD

5:57

Microcytic, normocytic, and macrocytic anemias | NCLEX-RN | Khan Academy

khanacademymedicine/YouTube

4:39

Non-megaloblastic Macrocytic Anemia

Medicosis Perfectionalis/YouTube

9:42

Microcytic anemia | Hematologic System Diseases | NCLEX-RN | Khan Academy

khanacademymedicine/YouTube

3:56

Living with and Managing Iron-Deficiency Anemia

NHLBI/YouTube

3:24

Hemolytic Anemia

DrER.tv/YouTube

3:16

Medical School - Anemia Made Easy

iMedicalSchool/YouTube

9:54

Iron deficency anemia diagnosis | Hematologic System Diseases | NCLEX-RN | Khan Academy

khanacademymedicine/YouTube

9:02

RBC Indices

Pathology Simplified/YouTube

4:32

Anemia: Basic lab tests - hematocrit, hemoglobin, reticulocyte, MCV, morphology

retic20/YouTube

33:35

WellnessFX: Red Blood Cell Indices Part 1 with Bryan Walsh

WellnessFX/YouTube

28:05

WellnessFX: Red Blood Cell Indices Part 2 with Bryan Walsh

WellnessFX/YouTube

Blood Brain Barrier Endothelium

TheVisualMD

Normal Blood Glucose Levels in Capillary

TheVisualMD

Cross-Section of Healthy Capillary Blood Vessel with Normal Glucose and Insulin Levels

TheVisualMD

Blood Vessels in the Brain

Ben Brahim Mohammed

Cross-Section of Damaged Capillary Blood Vessel with Very High Glucose and Insulin Levels

Blood Components

TheVisualMD

Test Tube Containing Blood

TheVisualMD

Blood Smear Showing Reduced Red Blood Cell Count

TheVisualMD

Red Blood Cell in Capillary

TheVisualMD

Kidney and Stem Cell Creating Red Blood Cell. B12 is critical for the creation of red blood cells.

TheVisualMD

Healthy Capillary Blood Vessel and and Damaged Capillary Blood Vessel Caused by High Levels of Blood Glucose

TheVisualMD

Genetic Testing

Genetic Testing

Also called: DNA Testing, Mutation Screening, Genetic Test

Genetic testing is a type of test that analyze your cells or tissue to look for any changes in your DNA. Genetic tests may be used to identify increased risks of health problems, to choose treatments, or to assess responses to treatments.

Genetic Testing

Also called: DNA Testing, Mutation Screening, Genetic Test

Genetic testing is a type of test that analyze your cells or tissue to look for any changes in your DNA. Genetic tests may be used to identify increased risks of health problems, to choose treatments, or to assess responses to treatments.

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Use the slider below to see how your results affect your health.
Your result is Negative.
A negative result means that the test did not find a genetic change known to cause disease.
Related conditions
Genetic testing may be done for many different reasons, including to:
- Find genetic diseases in unborn babies. This is one type of prenatal testing.
- Screen newborn babies for certain treatable conditions
- Lower the risk of genetic diseases in embryos that were created using assisted reproductive technology
- Find out if you carry a gene for a certain disease that could be passed on to your children. This is called carrier testing.
- See whether you are at increased risk of developing a specific disease. This may be done for a disease that runs in your family.
- Diagnose certain diseases
- Identify genetic changes that may be causing or contributing to a disease that you were already diagnosed with
- Figure out how severe a disease is
- Help guide your doctor in deciding the best medicine and dosage for you. This is called pharmacogenomic testing.
There are no known risks to having a saliva test. There is very little risk to having a blood test. You may have slight pain or bruising at the spot where the needle was put in, but most symptoms go away quickly.
The physical risks of the different types of genetic testing are small. But there can be emotional, social, or financial drawbacks:
- Depending on the results, you may feel angry, depressed, anxious, or guilty. This can be especially true if you are diagnosed with a disease that does not have effective treatments.
- You may be worried about genetic discrimination in employment or insurance
- Genetic testing may give you limited information about a genetic disease. For example, it cannot tell you whether you will have symptoms, how severe a disease might be, or whether a disease will get worse over time.
- Some genetic tests are expensive, and health insurance might only cover part of the cost. Or they may not cover it at all.
- Positive – the test found a genetic change known to cause disease.
- Negative – the test did not find a genetic change known to cause disease. Sometimes a negative result occurs when the wrong test was ordered or there isn’t a genetic cause for that person’s symptoms. A “true negative” is when there is a known genetic change in the family and the person tested did not inherit it. If your test results are negative and there is no known genetic change in your family, a negative test result may not give you a definite answer. This is because you might not have been tested for the genetic change that runs in your family.
- Uncertain – a variant of unknown or uncertain significance means there isn’t enough information about that genetic change to determine whether it is benign (normal) or pathogenic (disease causing).
1. Genetic Testing | CDC. Sep 23, 2022 [accessed on Feb 23, 2022]
2. Genetic Testing: MedlinePlus. National Library of Medicine. Jun 11, 2021 [accessed on Feb 23, 2022]
3. What is genetic testing?: MedlinePlus Genetics [accessed on Feb 23, 2022]
4. Genetic Testing FAQ. Genome.gov [accessed on Feb 23, 2022]
5. Genetic testing and your cancer risk: MedlinePlus Medical Encyclopedia [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."

Additional Materials (21)

Genetic testing

Genetic testing fact sheet

Image by genome.gov

Genetic testing

Genetic testing existed before the Human Genome Project and the list of diseases that we can already screen for may be longer than you think.

Image by TheVisualMD

Genes and Genetic Defects

Genetic testing isn't new. In the 1960s, doctors were able to test newborn babies for certain rare single-gene disorders, such as phenylketonuria (PKU), a rare metabolic disease that causes mental retardation. (PKU can be prevented with a special diet if it's detected early, which was why it was critical to test newborns.)

Image by TheVisualMD

Mapping Your Future: Screening for Disease Risk

Image by TheVisualMD

Each person with Down syndrome has different talents and the ability to thrive.

Down syndrome is a lifelong condition. Services early in life will often help babies and children with Down syndrome to improve their physical and intellectual abilities. Most of these services focus on helping children with Down syndrome develop to their full potential. These services include speech, occupational, and physical therapy, and they are typically offered through early intervention programs in each state. Children with Down syndrome may also need extra help or attention in school, although many children are included in regular classes.

Image by CDC

genetic analysis

Biotechnology - DNA analysis and treatment

Image by OpenClipart-Vectors/Pixabay

Family history (medicine)

An extended family in Spain

Image by Ojedamd

Biotechnology

This diagram shows the basic method used for extraction of DNA.

Image by CNX Openstax

Genetic Counselor at Sanford Health Explains the Benefits to Genetic Testing

Video by Sanford Health/YouTube

What Is A Genetic Counselor & The Importance of Genetic Counselling | Ambry Genetics

Video by Ambry Genetics/YouTube

How Does The Genetic Testing Process Work? Genetic Testing FAQ | Ambry Genetics

Video by Ambry Genetics/YouTube

Should You Get Genetic Testing During Your Pregnancy?

Video by St. Louis Children's Hospital/YouTube

Debating Embryonic Genetic Testing -- The Doctors

Video by The Doctors/YouTube

Genetic Testing for Cancer — AMITA Health | NBC Chicago Ask the Doc

Video by AMITA Health/YouTube

MedGenome BRCA - Breast Cancer Genetic Testing

Video by MedGenome/YouTube

Genetic Testing for Hereditary Forms of Kidney Cancer - Brian Shuch, MD

Video by UCLA Health/YouTube

Do I need Genetic Testing for Ichthyosis?

Video by foundation for ichthyosis/YouTube

What Is Genetic Testing? Understanding the Process and Its Results

Video by uvahealth/YouTube

How to Understand Your Genetic Testing Results

Video by Breast Cancer Answers®/YouTube

Genetic Testing 101 for People with Rare Diseases

Video by National Organization for Rare Disorders (NORD)/YouTube

What's the difference between genetic and genomic testing?

Video by Cancer Treatment Centers of America - CTCA/YouTube

Genetic testing

genome.gov

Genetic testing

TheVisualMD

Genes and Genetic Defects

TheVisualMD

Mapping Your Future: Screening for Disease Risk

TheVisualMD

Each person with Down syndrome has different talents and the ability to thrive.

CDC

genetic analysis

OpenClipart-Vectors/Pixabay

Family history (medicine)

Ojedamd

Biotechnology

CNX Openstax

1:57

Genetic Counselor at Sanford Health Explains the Benefits to Genetic Testing

Sanford Health/YouTube

1:06

What Is A Genetic Counselor & The Importance of Genetic Counselling | Ambry Genetics

Ambry Genetics/YouTube

0:45

How Does The Genetic Testing Process Work? Genetic Testing FAQ | Ambry Genetics

Ambry Genetics/YouTube

3:04

Should You Get Genetic Testing During Your Pregnancy?

St. Louis Children's Hospital/YouTube

4:40

Debating Embryonic Genetic Testing -- The Doctors

The Doctors/YouTube

1:31

Genetic Testing for Cancer — AMITA Health | NBC Chicago Ask the Doc

AMITA Health/YouTube

2:10

MedGenome BRCA - Breast Cancer Genetic Testing

MedGenome/YouTube

1:37

Genetic Testing for Hereditary Forms of Kidney Cancer - Brian Shuch, MD

UCLA Health/YouTube

1:43

Do I need Genetic Testing for Ichthyosis?

foundation for ichthyosis/YouTube

2:01

What Is Genetic Testing? Understanding the Process and Its Results

uvahealth/YouTube

3:58

How to Understand Your Genetic Testing Results

Breast Cancer Answers®/YouTube

1:00:31

Genetic Testing 101 for People with Rare Diseases

National Organization for Rare Disorders (NORD)/YouTube

2:05

What's the difference between genetic and genomic testing?

Cancer Treatment Centers of America - CTCA/YouTube

Prenatal Genetic Screening

Prenatal Genetic Screening

Also called: Prenatal DNA Testing, Carrier Screening for Genetic Disorders

Genetic tests look at the genetic information, called DNA, carried inside a person’s cells. When genetic screening is done for a baby’s parents, it can determine if either or both of the parents carry genes for a disease or disorder that can be passed on to their child.

Prenatal Genetic Screening

Also called: Prenatal DNA Testing, Carrier Screening for Genetic Disorders

Genetic tests look at the genetic information, called DNA, carried inside a person’s cells. When genetic screening is done for a baby’s parents, it can determine if either or both of the parents carry genes for a disease or disorder that can be passed on to their child.

{"label":"Prenatal Genetic Screening Reference Range","scale":"lin","step":0.25,"hideunits":true,"items":[{"flag":"negative","label":{"short":"Negative","long":"Negative","orientation":"horizontal"},"values":{"min":0,"max":1},"text":"No genetic disorders found.","conditions":[]},{"flag":"positive","label":{"short":"Positive","long":"Positive","orientation":"horizontal"},"values":{"min":1,"max":2},"text":"Possible genetic disorder. Confirmatory testing may be required. Talk with your genetic counselor to find out more about your results.","conditions":["Genetic disorder"]}],"value":0.5}[{"negative":0},{"positive":0}]
Use the slider below to see how your results affect your health.
Your result is Negative.
No genetic disorders found.
Related conditions
You should consider genetic screening if:
- You or your partner has a family history of a specific genetic disorder, such as cystic fibrosis.
- You belong to an ethnic group in which a genetic disease is more common—for instance, sickle cell disease in African Americans.
- You will be 35 or older on your due date, as your chances of having a child with genetic abnormalities increase as you get older.
- You have experienced multiple miscarriages, because the presence of genetic abnormalities in the fetus may be causing the miscarriages.
1. https://arupconsult.com/content/carrier-screening-genetic-disorders [accessed on Sep 03, 2020]
2. https://medlineplus.gov/genetictesting.html [accessed on Jan 31, 2019]
3. https://www.acog.org/Patients/FAQs/Prenatal-Genetic-Screening-Tests?IsMobileSet=false [accessed on Jan 31, 2019]
4. https://kidshealth.org/en/parents/genetics.html [accessed on Jan 31, 2019]
5. https://www.stanfordchildrens.org/en/topic/default?id=uses-of-genetic-testing-90-P02160 [accessed on Jan 31, 2019]
6. https://www.mayoclinic.org/tests-procedures/genetic-testing/about/pac-20384827 [accessed on Jan 31, 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 (8)

Prenatal Screening and Genetic Testing: Expert Q&A

Video by UChicago Medicine/YouTube

Understanding options for expanding prenatal genetic screening with non-invasive prenatal testing

Video by Illumina/YouTube

Stanford Hospital's Dr. Jane Chueh on Prenatal Screening and Diagnosis

Video by Stanford Health Care/YouTube

An introduction to genetics & prenatal genetic testing

Video by Illumina/YouTube

Prenatal testing for chromosomal abnormalities

Video by Northwell Health/YouTube

Understanding Prenatal Screening and Testing Options at OSU Maternal Fetal Medicine

Video by Ohio State Wexner Medical Center/YouTube

Prenatal Testing

Video by Stanford Children's Health | Lucile Packard Children's Hospital Stanford/YouTube

Noninvasive Prenatal Screening Patient Education Animation

Video by Myriad Women's Health/YouTube

28:07

Prenatal Screening and Genetic Testing: Expert Q&A

UChicago Medicine/YouTube

3:46

Understanding options for expanding prenatal genetic screening with non-invasive prenatal testing

Illumina/YouTube

1:11:38

Stanford Hospital's Dr. Jane Chueh on Prenatal Screening and Diagnosis

Stanford Health Care/YouTube

3:21

An introduction to genetics & prenatal genetic testing

Illumina/YouTube

3:32

Prenatal testing for chromosomal abnormalities

Northwell Health/YouTube

14:57

Understanding Prenatal Screening and Testing Options at OSU Maternal Fetal Medicine

Ohio State Wexner Medical Center/YouTube

20:52

Prenatal Testing

Stanford Children's Health | Lucile Packard Children's Hospital Stanford/YouTube

2:39

Noninvasive Prenatal Screening Patient Education Animation

Myriad Women's Health/YouTube

Treatment

Blood transfusion

Image by Ian Furst/User:Doc James

Blood transfusion

Blood bag with chamber dripping blood quickly

Image by Ian Furst/User:Doc James

How Is Thalassemia Treated?

The type of treatment a person receives depends on how severe the thalassemia is. The more severe the thalassemia, the less hemoglobin the body has, and the more severe the anemia may be.

One way to treat anemia is to provide the body with more red blood cells to carry oxygen. This can be done through a blood transfusion, a safe, common procedure in which you receive blood through a small plastic tube inserted into one of your blood vessels. Some people with thalassemia – usually with thalassemia major – need regular blood transfusions because their body makes such low amounts of hemoglobin. People with thalassemia intermedia (not as severe as major, but not as mild as trait) may need blood transfusions sometimes, such as when they have an infection or an illness. People with thalassemia minor or trait usually do not need blood transfusions because they either do not have anemia or have only a mild anemia.

Many times people with thalassemia are prescribed a supplemental B vitamin, known as folic acid, to help treat anemia. Folic acid can help red blood cells develop. Treatment with folic acid is usually done in addition to other therapies.

Source: Centers for Disease Control and Prevention (CDC)

Healthy Living

Proper Nutrition Builds a Healthy Body

Image by TheVisualMD

Proper Nutrition Builds a Healthy Body

Image by TheVisualMD

Healthy Living with Thalassemia

What can a person living with thalassemia do to stay healthy?

A healthy lifestyle is important for everyone. For people living with thalassemia, it is especially important to know that a healthy lifestyle means “managing the disorder”, as well as making healthy choices.

Managing Thalassemia

Thalassemia is a treatable disorder that can be well-managed with blood transfusions and chelation therapy. A person with thalassemia will need to receive medical care on a regular basis from a hematologist (a medical specialist who treats diseases or disorders of the blood) or a doctor who specializes in treating patients with thalassemia. If a doctor has prescribed either blood transfusions or chelation therapy, the most important thing a person with thalassemia can do is stick to their transfusion and chelation schedules to prevent severe anemia and possible organ damage from iron overload, respectively.

Healthy Choices for People Living with Thalassemia

Other healthy choices a person with thalassemia should consider include keeping vaccinations up-to-date, eating nutritious meals, exercising, and developing positive relationships.

Vaccines

Vaccines are a great way to prevent many serious infections. Children and adults with thalassemia should get all recommended vaccinations, including a flu vaccination. People with thalassemia are considered “high risk” for certain infections, especially if they have had their spleen removed, and should follow a special vaccination schedule for the following vaccines:

Haemophilus influenzae type b (Hib)
Pneumococcal vaccines
Meningococcal vaccines

See the most up-to-date vaccination schedules. Pay special attention to the footnotes that provide special instructions for people with thalassemia.

Nutrition

Eating nutritious foods is important for everyone to maintain a healthy lifestyle – a diet, high in fruits and vegetables and low in fats is ideal for gaining the essential nutrients our bodies need. For people living with thalassemia, because too much iron may build up in the blood, foods high in iron may need to be limited. Iron can be found in meat, fish, and some vegetables (e.g., spinach). Other products, like cereal and orange juice, may contain extra iron. Persons with thalassemia should discuss with their doctor whether or not they should limit the amount of iron in their diet.

Exercise

Exercise is part of an overall healthy lifestyle and helps lead to better health outcomes. Although some people with thalassemia may have trouble participating in vigorous forms of exercise, many people with thalassemia can participate in moderate physical activities including biking, running, and walking. If a person with thalassemia has problems with their joints, there are many kinds of low-impact activities to choose from including yoga, swimming, or water aerobics. If you have thalassemia, you should discuss with your doctor the level of exercise that would be best for you.

Relationships

Having warm, supportive relationships is an important part of life. Friends, including co-workers, classmates, and family members can offer support in managing thalassemia (e.g., offering a ride to the transfusion center, gentle reminders about your chelation schedule, etc.) and coping with stress of daily life.

Romantic relationships can also offer a source of support. If a romantic relationship becomes sexual, it is important for everyone to make healthy decisions, such as getting tested for sexually transmitted diseases and negotiating condom use. In addition, if you have thalassemia, thalassemia trait, or know someone in your family with thalassemia, genetic counseling is recommended prior to any pregnancy so that you and your partner can be informed of your risk of having a child with thalassemia.c

Source: Centers for Disease Control and Prevention (CDC)

Additional Materials (3)

Anemia at a Glance

Anemia is the most common blood disorder in the United States. This infographic includes information on signs and symptoms, causes, diagnosis, treatment, and prevention.

Document by National Heart, Lung, and Blood Institute / NIH

Depiction of a woman suffering from anemia

This is a depiction of a woman suffering from anemia. Normal red blood cells have been shown in comparison with anemic red blood cells, which are smaller and more pale. Fatigue and light-headedness, the typical symptoms of anemia have been shown.

Image by https://www.myupchar.com

Composition of Blood

The cellular elements of blood include a vast number of erythrocytes and comparatively fewer leukocytes and platelets. Plasma is the fluid in which the formed elements are suspended. A sample of blood spun in a centrifuge reveals that plasma is the lightest component. It floats at the top of the tube separated from the heaviest elements, the erythrocytes, by a buffy coat of leukocytes and platelets. Hematocrit is the percentage of the total sample that is comprised of erythrocytes. Depressed and elevated hematocrit levels are shown for comparison.

Image by CNX Openstax

Anemia at a Glance

National Heart, Lung, and Blood Institute / NIH

Depiction of a woman suffering from anemia

https://www.myupchar.com

Composition of Blood

CNX Openstax

Related HealthJournals

Thalassemia

Thalassemia is a red blood cell disorder that may cause a person to feel tired, weak, or short of breath (a condition called anemia) and can lead to organ damage and even death. There are two main types of thalassemia, alpha thalassemia and beta thalassemia. Learn about the types and treatments.

Hemoglobinopathy

The hemoglobinopathies are a group of disorders passed down through families (inherited) in which there is abnormal production or structure of the hemoglobin molecule.

Sickle Beta Thalassemia

Sickle beta thalassemia is a type of sickle cell disease. Affected people may have no normal hemoglobin (called sickle beta zero thalassemia) or a reduced amount of normal hemoglobin (called sickle beta plus thalassemia). Learn more about inheritance, symptoms and treatment of sickle beta thalassemia.

Anemia

If you have anemia, your blood doesn't carry enough oxygen to the rest of your body, which can make you feel tired, cold, dizzy, and irritable. Learn about the different causes of anemia, how to diagnose it, and the different treatments available.

Blood Clots

Blood clots, or thrombi, form when blood thickens and clumps together. Some blood clots can break off and travel through the bloodstream. This loose clot is called an embolus, and can be life-threatening. Blood clots are often an under-diagnosed medical condition. Learning and recognizing the signs and symptoms of blood clots can save lives.

Genetic Testing

Genetic testing is a type of medical test that identifies changes in chromosomes, genes, or proteins. Over 2000 tests are available. Genetic testing may be done for many reasons, from newborn baby screening to diagnosing certain diseases. Read about why you might consider testing.

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Beta Thalassemia

Beta-thalassemia is a blood disorder that reduces the body's production of hemoglobin. It occurs when certain gene defects affect production of the beta-globin protein, a component (subunit) of hemoglobin.

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