Ewing Family of Tumors, Ewing Tumor, Ewing's Sarcoma, Ewing's Tumor, Tumor of the Ewing Family
Ewing sarcoma is a malignant (cancerous) bone tumor that affects children. It usually develops during puberty, when bones are growing rapidly. Learn more about this type of tumor.
X-ray (lateral view) of an Ewing's sarcoma (marked by white arrow) in the tibia of a child
Image by Michael Richardson, M.D
What Is
Ewing's sarcoma
Image by Dr. Frank Gaillard
Ewing's sarcoma
Distribution of Ewing sarcoma. Most frequent locations are the large long bones and the pelvis.
Image by Dr. Frank Gaillard
What Is Ewing Sarcoma?
Ewing sarcoma is a type of tumor that forms in bone or soft tissue.
Ewing sarcoma is a type of tumor that forms from a certain kind of cell in bone or soft tissue. Ewing sarcoma may be found in the bones of the legs, arms, feet, hands, chest, pelvis, spine, or skull. Ewing sarcoma also may be found in the soft tissue of the trunk, arms, legs, head, neck, retroperitoneum (area in the back of the abdomen behind the tissue that lines the abdominal wall and covers most of the organs in the abdomen), or other areas.
Ewing sarcoma is most common in adolescents and young adults (teens through mid-20s).
Ewing sarcoma has also been called peripheral primitive neuroectodermal tumor, Askin tumor (Ewing sarcoma of the chest wall), extraosseous Ewing sarcoma (Ewing sarcoma in tissue other than bone), and Ewing sarcoma family of tumors.
Undifferentiated round cell sarcoma may also occur in the bone or soft tissue.
Undifferentiated round cell sarcoma usually occurs in the bones or the muscles that are attached to bones and that help the body move. There are three types of undifferentiated round cell sarcoma that are treated like Ewing sarcoma:
Undifferentiated round cell sarcoma with BCOR-CCNB3 rearrangements. This type of bone tumor usually forms in the pelvis, arms, or legs. It may spread to other parts of the body. In this type of round cell sarcoma, the BCOR gene is joined to the CCNB3 gene. To diagnose round cell sarcoma, the tumor cells are checked for this gene change.
Undifferentiated round cell sarcoma with CIC-DUX4 rearrangements. This type of soft tissue tumor usually forms in the trunk, arms, or legs. It is most common in males and in young adults between 21 and 40 years of age. In this type of round cell sarcoma, the CIC gene is joined to the DUX4 gene. To diagnose round cell sarcoma, the tumor cells are checked for this gene change.
Undifferentiated round cell sarcoma with CIC-NUTM1 rearrangements. This type of soft tissue tumor usually forms in the central nervous system, but it can also form in the trunk. It is most common in younger patients.
Source: National Cancer Institute (NCI)
Additional Materials (3)
Ewing's Sarcoma - Mayo Clinic
Video by Mayo Clinic/YouTube
Eve's story | Ewing's Sarcoma | Stand Up To Cancer
Video by standuptocancerUK/YouTube
Ewing Sarcoma, Osteosarcoma, and Giant Cell Tumor - Bone Cancers X-ray and Treatment Options
Video by USMLE pass/YouTube
9:01
Ewing's Sarcoma - Mayo Clinic
Mayo Clinic/YouTube
3:49
Eve's story | Ewing's Sarcoma | Stand Up To Cancer
standuptocancerUK/YouTube
2:44
Ewing Sarcoma, Osteosarcoma, and Giant Cell Tumor - Bone Cancers X-ray and Treatment Options
USMLE pass/YouTube
Cause
Chromosomal translocation
Image by National Cancer Institute
Chromosomal translocation
Translocation Illustration Description This illustration is titled "Genetic Fingerprints For Cancer." It explains the components of a chromosome and a gene. It also illustrates translocation, which causes some types of cancers.
Image by National Cancer Institute
What Causes Ewing Sarcoma?
The tumor cells of Ewing sarcoma have a characteristic genetic finding, called a reciprocal translocation. This creates an abnormal rearrangement of genetic material, and causes two genes, the EWSR1 gene on chromosome 22 and the FLI1 gene on chromosome 11 to fuse together. Thisfusion gene leads to abnormal cell growth. The reciprocal translocation occurs by chance and is only found in tumor cells (somatic mutation). It is not inherited in families. It is unknown what causes the reciprocal translocation to occur.
Source: Genetic and Rare Diseases (GARD) Information Center
Additional Materials (3)
Ewing’s Sarcoma: Cancerous Bone Tumor in Adolescents
Video by uvahealth/YouTube
Ewing's Sarcoma, Briefly - Everything You Need To Know - Dr. Nabil Ebraheim
Video by nabil ebraheim/YouTube
Translocation
Translocation is a type of chromosomal abnormality in which a chromosome breaks and a portion of it reattaches to a different chromosome.
Image by National Human Genome Research Institute (NHGRI)
0:59
Ewing’s Sarcoma: Cancerous Bone Tumor in Adolescents
uvahealth/YouTube
4:48
Ewing's Sarcoma, Briefly - Everything You Need To Know - Dr. Nabil Ebraheim
nabil ebraheim/YouTube
Translocation
National Human Genome Research Institute (NHGRI)
Inheritance
DNA - Cancer begins when a cell undergoes a mutation
Image by TheVisualMD
DNA - Cancer begins when a cell undergoes a mutation
Cancer begins when a cell undergoes a mutation, that is, one or more of its genes are damaged or lost. Genes become damaged in several ways. Damage may be due to free radicals produced in the normal process of metabolism, exposure to carcinogens (such as radiation, chemicals, tobacco, and infectious agents), random errors in DNA replication, or an inherited mutated gene. People who are said to have a genetic predisposition to certain types of cancer have a greater chance of developing that cancer than other people. This is because they were born with one of the mutations that can lead to a cell becoming cancerous.
Image by TheVisualMD
How Is Ewing Sarcoma Inherited?
This condition is generally not inherited but arises from a mutation in the body's cells that occurs after conception (somatic mutation). Most cases are considered to be sporadic. However, the incidence of neuroectodermal and stomach malignancies is increased among family members of patients with tumors of the Ewing sarcoma family.
A search of the medical literature did identify a very small number of cases of Ewing sarcoma among siblings.
Source: Genetic and Rare Diseases (GARD) Information Center
Additional Materials (2)
Ewing's Sarcoma, What Is It?
Video by EmpowHER/YouTube
Ewing's Sarcoma Research at U-M C.S. Mott Children's Hospital
Video by Michigan Medicine/YouTube
1:52
Ewing's Sarcoma, What Is It?
EmpowHER/YouTube
2:38
Ewing's Sarcoma Research at U-M C.S. Mott Children's Hospital
Michigan Medicine/YouTube
Signs & Symptoms
X-ray (lateral view) of an Ewing's sarcoma (marked by white arrow) in the tibia of a child
Image by Michael Richardson, M.D
X-ray (lateral view) of an Ewing's sarcoma (marked by white arrow) in the tibia of a child
X-ray (lateral view) of an Ewing's sarcoma (marked by white arrow) in the tibia of a child
Image by Michael Richardson, M.D
Signs and Symptoms of Ewing's Sarcoma
Signs and symptoms of Ewing sarcoma include swelling and pain near the tumor.
These and other signs and symptoms may be caused by Ewing sarcoma or by other conditions. Check with your child’s doctor if your child has any of the following:
Pain and/or swelling, usually in the arms, legs, chest, back, or pelvis.
A lump (which may feel soft and warm) in the arms, legs, chest, or pelvis.
Fever for no known reason.
A bone that breaks for no known reason.
Source: National Cancer Institute (NCI)
Additional Materials (3)
Ewing's Sarcoma, Briefly - Everything You Need To Know - Dr. Nabil Ebraheim
Video by nabil ebraheim/YouTube
Noah's Journey with Ewing’s Sarcoma
Video by Children's Hospital Colorado/YouTube
Ewing Sarcoma | Ella’s Story | Stand Up To Cancer
Video by standuptocancerUK/YouTube
4:48
Ewing's Sarcoma, Briefly - Everything You Need To Know - Dr. Nabil Ebraheim
nabil ebraheim/YouTube
7:17
Noah's Journey with Ewing’s Sarcoma
Children's Hospital Colorado/YouTube
4:14
Ewing Sarcoma | Ella’s Story | Stand Up To Cancer
standuptocancerUK/YouTube
Diagnosis
Sensitive content
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MRI of Ewing's Sarcoma
Image by National Cancer Institute / Unknown Photographer
Sensitive content
This media may include sensitive content
MRI of Ewing's Sarcoma
Magnetic resonance imaging (MRI) image of human skeleton. MRI diagnoses Ewing's sarcoma of the right hip.
Image by National Cancer Institute / Unknown Photographer
Diagnosis of Ewing's Sarcoma
Tests that examine the bone and soft tissue are used to diagnose and stage Ewing sarcoma.
Procedures that make pictures of the bones and soft tissues and nearby areas help diagnose Ewing sarcoma and show how far the cancer has spread. The process used to find out if cancer cells have spread within and around the bones and soft tissues is called staging.
In order to plan treatment, it is important to know if the cancer is in the area where it first formed or if it has spread to other parts of the body. Tests and procedures to detect, diagnose, and stage Ewing sarcoma are usually done at the same time.
The following tests and procedures may be used to diagnose or stage Ewing sarcoma:
Physical exam and history: An exam of the body to check general signs of health, including checking for signs of disease, such as lumps or anything else that seems unusual. A history of the patient’s health habits and past illnesses and treatments will also be taken.
MRI (magnetic resonance imaging): A procedure that uses a magnet, radio waves, and a computer to make a series of detailed pictures of areas inside the body, such as the area where the tumor formed. This procedure is also called nuclear magnetic resonance imaging (NMRI).
Magnetic resonance imaging (MRI) of the abdomen. The child lies on a table that slides into the MRI scanner, which takes pictures of the inside of the body. The pad on the child’s abdomen helps make the pictures clearer.
CT scan (CAT scan): A procedure that makes a series of detailed pictures of areas inside the body, such as the area where the tumor formed or the chest, taken from different angles. The pictures are made by a computer linked to an x-ray machine. A dye may be injected into a vein or swallowed to help the organs or tissues show up more clearly. This procedure is also called computed tomography, computerized tomography, or computerized axial tomography.
Computed tomography (CT) scan of the abdomen. The child lies on a table that slides through the CT scanner, which takes x-ray pictures of the inside of the abdomen.
PET scan (positron emission tomography scan): A procedure to find malignant tumor cells in the body. A small amount of radioactive glucose (sugar) is injected into a vein. The PET scanner rotates around the body and makes a picture of where glucose is being used in the body. Malignant tumor cells show up brighter in the picture because they are more active and take up more glucose than normal cells do. A PET scan and a CT scan are often done at the same time. If there is any cancer, this increases the chance that it will be found.
Positron emission tomography (PET) scan. The child lies on a table that slides through the PET scanner. The head rest and white strap help the child lie still. A small amount of radioactive glucose (sugar) is injected into the child's vein, and a scanner makes a picture of where the glucose is being used in the body. Cancer cells show up brighter in the picture because they take up more glucose than normal cells do.
Bone scan: A procedure to check if there are rapidly dividing cells, such as cancer cells, in the bone. A very small amount of radioactive material is injected into a vein and travels through the bloodstream. The radioactive material collects in the bones with cancer and is detected by a scanner.
Bone scan. A small amount of radioactive material is injected into the child's vein and travels through the blood. The radioactive material collects in the bones. As the child lies on a table that slides under the scanner, the radioactive material is detected and images are made on a computer screen.
Bone marrow aspiration and biopsy: The removal of bone marrow and a small piece of bone by inserting a hollow needle into the hipbone. Samples are removed from both hipbones. A pathologist views the bone marrow and bone under a microscope to see if the cancer has spread.
Bone marrow aspiration and biopsy. After a small area of skin is numbed, a bone marrow needle is inserted into the child’s hip bone. Samples of blood, bone, and bone marrow are removed for examination under a microscope.
X-ray: An x-ray is a type of energy beam that can go through the body and onto film, making a picture of areas inside the body, such as the chest or the area where the tumor formed.
Complete blood count (CBC): A procedure in which a sample of blood is drawn and checked for the following:
The number of red blood cells, white blood cells, and platelets.
The amount of hemoglobin (the protein that carries oxygen) in the red blood cells.
The portion of the blood sample made up of red blood cells.
Blood chemistry studies: A procedure in which a blood sample is checked to measure the amounts of certain substances, such as lactate dehydrogenase (LDH), released into the blood by organs and tissues in the body. An unusual (higher or lower than normal) amount of a substance can be a sign of disease.
A biopsy is done to diagnose Ewing sarcoma.
Tissue samples are removed during a biopsy so they can be viewed under a microscope by a pathologist to check for signs of cancer. It is helpful if the biopsy is done at the same center where treatment will be given.
Needle biopsy: For a needle biopsy, tissue is removed using a needle. This type of needle biopsy may be done if it’s possible to remove tissue samples large enough to be used for testing.
Incisional biopsy: For an incisional biopsy, a sample of tissue is removed through an incision in the skin.
Excisional biopsy: The removal of an entire lump or area of tissue that doesn’t look normal.
The specialists (pathologist, radiation oncologist, and surgeon) who will treat the patient usually work together to decide where the needle should be placed or the biopsy incision should be made. This is done so that the biopsy doesn't affect later treatment such as surgery to remove the tumor or radiation therapy.
If there is a chance that the cancer has spread to nearby lymph nodes, one or more lymph nodes may be removed and checked for signs of cancer.
The following tests may be done on the tissue that is removed:
Cytogenetic analysis: A laboratory test in which cells in a sample of tissue are viewed under a microscope to look for certain changes in the chromosomes.
Immunohistochemistry: A test that uses antibodies to check for certain antigens in a sample of tissue. The antibody is usually linked to a radioactive substance or a dye that causes the tissue to light up under a microscope. This type of test may be used to tell the difference between different types of cancer.
Flow cytometry: A laboratory test that measures the number of cells in a sample, the percentage of live cells in a sample, and certain characteristics of cells, such as size, shape, and the presence of tumor markers on the cell surface. The cells are stained with a light-sensitive dye, placed in a fluid, and passed in a stream before a laser or other type of light. The measurements are based on how the light-sensitive dye reacts to the light.
Source: National Cancer Institute (NCI)
Additional Materials (8)
Bone Sarcomas | FAQ with Dr. Adam Levin
Video by Johns Hopkins Medicine/YouTube
Having a bone scan | Cancer Research UK
Video by Cancer Research UK/YouTube
What is it like to have a CT scan? | Cancer Research UK
Video by Cancer Research UK/YouTube
What is a DEXA bone scan and what does it show?
Video by Top Doctors UK/YouTube
MRI and CT Scan the differences
Video by Vijayan Ragavan/YouTube
Bone Marrow Biopsy & Aspiration (BMBx)
Video by Leukemia & Lymphoma Society/YouTube
CT-guided biopsy for suspicion of bone sarcoma
Video by Institute for Cancer Genetics and Informatics/YouTube
Madison™ Bone Biopsy System Procedure
Video by Merit Medical/YouTube
4:48
Bone Sarcomas | FAQ with Dr. Adam Levin
Johns Hopkins Medicine/YouTube
1:35
Having a bone scan | Cancer Research UK
Cancer Research UK/YouTube
1:50
What is it like to have a CT scan? | Cancer Research UK
Cancer Research UK/YouTube
1:32
What is a DEXA bone scan and what does it show?
Top Doctors UK/YouTube
5:35
MRI and CT Scan the differences
Vijayan Ragavan/YouTube
2:37
Bone Marrow Biopsy & Aspiration (BMBx)
Leukemia & Lymphoma Society/YouTube
3:04
CT-guided biopsy for suspicion of bone sarcoma
Institute for Cancer Genetics and Informatics/YouTube
4:35
Madison™ Bone Biopsy System Procedure
Merit Medical/YouTube
PET Scan
PET Scan
Also called: PET Imaging, Positron Emission Tomography, Positron Emission Testing
A PET scan is an imaging test that uses a radioactive substance (tracer) to check for changes in chemical activity in the body. This activity may be a sign of cancer, heart disease, or a brain disorder.
PET Scan
Also called: PET Imaging, Positron Emission Tomography, Positron Emission Testing
A PET scan is an imaging test that uses a radioactive substance (tracer) to check for changes in chemical activity in the body. This activity may be a sign of cancer, heart disease, or a brain disorder.
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Use the slider below to see how your results affect your
health.
Your result is Normal.
There are no problems detected in the size, shape, or function of the organ being scanned. There are no areas in which the tracer has abnormally collected.
Related conditions
A PET (positron emission tomography) scan is an imaging test that looks at how well your tissues and organs are working. It also checks for signs of cancer. The scan uses a small amount of a radioactive substance called a tracer.
The tracer settles in areas of your body that have high levels of chemical activity. This activity can be a sign of cancer or other diseases. The tracer can also help measure blood flow, oxygen use, and changes in the metabolism of a particular tissue or organ. Metabolism is a chemical process that your body uses to change food into energy.
Chemical changes in the body can show up before symptoms of disease appear. So a PET scan can find signs of disease at an early stage, often before problems can be seen on other imaging tests.
A PET scan is most often used to:
Diagnose or monitor certain cancers, including breast, thyroid, and lung cancers
Find out how well your heart muscle is working
Check blood flow to the heart
Check for signs of certain brain disorders, such as Parkinson's disease, Huntington's disease, Alzheimer's disease, and types of dementia. Dementia is not a specific disease. It is a term used to describe a decline in mental function that is severe enough to affect daily living.
A PET scan is often done along with a CT scan, a type of x-ray that takes a series of pictures as it rotates around you.
You may need a PET scan to find out if you have cancer. If you've already been diagnosed with cancer, you may need this test to see if your cancer treatment is working.
A PET scan also helps diagnose and monitor heart and brain diseases. So you may need this test if you:
Have a family history of heart disease
Are being treated for heart disease. This test can show if the treatment is working.
Have symptoms of a brain disease, such as tremors, memory problems, and/or seizures
Before the scan, you will change into a hospital gown. You may be asked to empty your bladder. During the scan:
A health care provider will inject the radioactive tracer into your vein through an intravenous (IV) line. The tracer sends out a form of energy called gamma rays. The rays are picked up by the scanner to create images of the inside of your body.
You will need to wait for the tracer to be absorbed by your body. This takes 45 to 60 minutes.
You will then lie on a narrow, padded table, which will slide into a large, tunnel-shaped scanner.
The scanner will move slowly across your body to capture images. You will need to be very still as this happens.
The scanner will send images to a computer monitor for the provider to review.
Your provider will then remove the IV line.
You may be asked to not eat or drink for four to six hours before the test.
If you have diabetes and use insulin, you may need to change the timing of your regular dose. Your provider will give you specific instructions about adjusting your insulin.
Also, tell your provider if you have claustrophobia (fear of enclosed spaces). Your provider may decide to give you a medicine before the test to help you relax.
There is very little exposure to radiation in a PET scan. Only a small amount of radioactive substance is used, and all of the radiation leaves the body within 2 to 10 hours.
While radiation exposure in a PET scan is safe for most adults, it can be harmful to an unborn baby. So be sure to tell your provider if you are pregnant or think you may be pregnant. Also, tell your provider if you are breastfeeding, because the tracer may contaminate your breast milk.
Allergic reactions to the tracer are rare and usually mild.
Depending on which part of the body was being scanned, your results may show:
Cancer. Cancer cells show up as bright spots on a PET scan.
Heart disease. The scan can show decreased blood flow to the heart.
A brain disorder. The scan may show changes in certain brain chemicals that can indicate disease.
If you also had a CT scan, your provider will review the results of the two scans to help make a diagnosis.
If you have questions about your results, talk to your health care provider.
Your PET scan results will be looked at by a radiologist, a doctor who specializes in diagnosing and treating medical conditions using imaging technologies. He or she will share the results with your health care provider.
https://my.clevelandclinic.org/health/diagnostics/10123-pet-scan [accessed on Jul 27, 2021]
https://medlineplus.gov/ency/article/007341.htm [accessed on Jul 27, 2021]
https://medlineplus.gov/ency/article/007342.htm [accessed on Jul 27, 2021]
https://medlineplus.gov/ency/article/007343.htm [accessed on Jul 27, 2021]
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 (23)
What is it Like to Have a PET Scan? | Cancer Research UK
Video by Cancer Research UK/YouTube
PET Scan in 3 views
PET Scan in 3 views
PET Scan in 3 views
1
2
3
PET Scan in 3 views
PET Scan in 3 views
Interactive by TheVisualMD
PET/CT
CT
PET
1
2
3
PET/CT Scans of Colorectal Cancer 1) Pet/CT scan 2) CT Scan 3) Pet Scan
PET scans can often detect a tumor that can't be seen on CT scans or regular X-rays. Cancer tumors grow rapidly and so actively metabolize glucose. In a PET scan, the patient is injected with glucose containing a radioactive tracer. The PET scan image shows areas of the body that utilize the glucose. The brain, heart, and bladder all metabolize glucose and appear black in the image, along with any cancer tumors that are present.
Interactive by TheVisualMD
How Does a PET Scan Work?
Video by NIBIB gov/YouTube
UCSF Radiology: How does a PET scan help with cancer imaging?
Video by UCSF Imaging/YouTube
Your PET/CT scan at University College Hospital
Video by University College London Hospitals NHS Foundation Trust/YouTube
How X-rays see through your skin - Ge Wang
Video by TED-Ed/YouTube
PET Scans and CAT Scans
Video by Lee Health/YouTube
Having a PET-CT scan
Video by Design Science/YouTube
How does a PET scan work?
Video by Imperial College London/YouTube
Patient exercises
EKG monitoring
Inject radiotracer
Scanning with stress
Patient rests
Inject radiotracer again
1
2
3
4
5
6
Myocardial perfusion scan
Myocardial perfusion imaging is a test that uses a low dose of a radioactive agent to evaluate the blood flow and function of the heart. This scan is done in conjunction with a cardiac stress test a diagnostic test in which a person walks on a treadmill or pedals (a stationary bicycle) while hooked up to equipment that monitors the heart. The test monitors heart rate breathing blood pressure electrical activity (on an electrocardiogram) and the person's level of tiredness. It shows if the heart's blood supply is sufficient and if the heart rhythm is normal. A stress test can detect the following problems:
- Abnormal changes in heart rate or blood pressure
- Symptoms such as shortness of breath or chest pain
- Abnormal changes in the heart's rhythm or electrical activity
Interactive by TheVisualMD
Testing for bowel cancer
Video by Cancer Research UK/YouTube
MRI Animation
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Carcinogenesis head and neck short version only animation
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Head and Neck Cancer
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What are the Risk Factors and Symptoms of Head and Neck Cancers? | Dana-Farber Cancer Institute
Video by Dana-Farber Cancer Institute/YouTube
Introduction to Head and Neck Cancer | Memorial Sloan Kettering
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Throat Cancer
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Rush Radiosurgery: Head and Neck Cancer Radiation
Video by Rush Radiosurgery/YouTube
Treating the head and neck - Radiotherapy and its physics (3/15)
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Nutrition Video for Head & Neck Cancer
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Throat Cancer Largely Due to Smoking And Drinking, Studies Show
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What is nuclear medicine? An illustrated introduction
Video by navalorama/YouTube
3:13
What is it Like to Have a PET Scan? | Cancer Research UK
Cancer Research UK/YouTube
PET Scan in 3 views
TheVisualMD
PET/CT Scans of Colorectal Cancer 1) Pet/CT scan 2) CT Scan 3) Pet Scan
TheVisualMD
1:33
How Does a PET Scan Work?
NIBIB gov/YouTube
1:30
UCSF Radiology: How does a PET scan help with cancer imaging?
UCSF Imaging/YouTube
3:31
Your PET/CT scan at University College Hospital
University College London Hospitals NHS Foundation Trust/YouTube
4:42
How X-rays see through your skin - Ge Wang
TED-Ed/YouTube
1:37
PET Scans and CAT Scans
Lee Health/YouTube
5:17
Having a PET-CT scan
Design Science/YouTube
4:25
How does a PET scan work?
Imperial College London/YouTube
Myocardial perfusion scan
TheVisualMD
1:37
Testing for bowel cancer
Cancer Research UK/YouTube
0:36
MRI Animation
Blausen Medical Corporate/YouTube
4:03
Carcinogenesis head and neck short version only animation
Amsterdam UMC/YouTube
7:27
Head and Neck Cancer
Robert Miller/YouTube
2:35
What are the Risk Factors and Symptoms of Head and Neck Cancers? | Dana-Farber Cancer Institute
Dana-Farber Cancer Institute/YouTube
18:04
Introduction to Head and Neck Cancer | Memorial Sloan Kettering
Memorial Sloan Kettering/YouTube
6:01
Throat Cancer
Michigan Medicine/YouTube
1:13
Rush Radiosurgery: Head and Neck Cancer Radiation
Rush Radiosurgery/YouTube
1:57
Treating the head and neck - Radiotherapy and its physics (3/15)
OpenLearn from The Open University/YouTube
4:25
Nutrition Video for Head & Neck Cancer
Stanford Health Care/YouTube
2:39
Throat Cancer Largely Due to Smoking And Drinking, Studies Show
VOA News/YouTube
3:02
What is nuclear medicine? An illustrated introduction
navalorama/YouTube
Bone Scan
Bone Scan
Also called: Bone Scintigraphy, Skeletal Scintigraphy, Nuclear Bone Scan
A bone scan is a safe, effective, and painless way to make images of your bones using a compound containing a small amount of radioactivity injected into the bloodstream. The test helps find out if there is a tumor, infection, or other abnormality in your bone.
Bone Scan
Also called: Bone Scintigraphy, Skeletal Scintigraphy, Nuclear Bone Scan
A bone scan is a safe, effective, and painless way to make images of your bones using a compound containing a small amount of radioactivity injected into the bloodstream. The test helps find out if there is a tumor, infection, or other abnormality in your bone.
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Use the slider below to see how your results affect your
health.
Your result is Normal.
In a normal bone scan, the radioactive tracer is evenly spread among the bones. No areas of too much or too little tracer are seen, or areas of "cold" or "hot" spots.
Related conditions
A bone scan is a procedure to check for abnormal areas or damage in the bones. A very small amount of radioactive material is injected into a vein and travels through the blood. The radioactive material collects in the bones and is detected by a scanner (a special camera that takes pictures of the inside of the body). A bone scan may be used to diagnose bone tumors or cancer that has spread to the bone. It may also be used to help diagnose fractures, bone infections, or other bone problems.
A bone scan helps your doctor find out if there is a tumor, infection, or other abnormality in your bone. This scan is a safe, effective, and painless way to make pictures of your bones.
Before the procedure, a small amount of the compound (radioisotope) will be given to you by vein. Once you are in the imaging room, you will rest on a firm table with your head flat. During the scan, you will lie on your back. While you are in this position, a sensitive machine (called a scanner) will record the radiation given off by the radioisotope. Lie very still. Many pictures will be taken as the scanner moves from your head to your toes. After the scan, more pictures will be taken of your head and hands. Stay very still while these pictures are being taken.
There is no special preparation for this scan. You may eat and drink whatever you like.
There are no side effects, and the scan is painless. The only sensation you will feel will be the injection of the radioisotope in your vein.
Because it uses radioactivity, this scan is not performed in pregnant women. If you are pregnant or think you might be pregnant, please inform your doctor immediately so that a decision can be made about this scan.
Also, please inform your doctor immediately if you are breastfeeding. Some scans can be performed in breastfeeding women if they are willing to stop breastfeeding for a while.
https://www.cc.nih.gov/ccc/patient_education/procdiag/bonescan.pdf [accessed on Mar 21, 2019]
https://www.radiologyinfo.org/en/info.cfm?pg=bone-scan [accessed on Mar 21, 2019]
https://www.hopkinsmedicine.org/healthlibrary/test_procedures/orthopaedic/bone_scan_92,p07663 [accessed on Apr 01, 2019]
https://www.mayoclinic.org/tests-procedures/bone-scan/about/pac-20393136 [accessed on Apr 01, 2019]
Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."
Additional Materials (18)
Osteomyelitis
Osteomyelitis in both feet as seen on bone scan
Image by James Heilman, MD
Facing Forward: Life After Cancer Treatment
Facing Forward: Life After Cancer Treatment is for people who have completed cancer treatment. Family and friends may also want to read this booklet.
Document by National Cancer Institute (NCI)
Treatment Planning
A cancer's stage (how far it has progressed) is a very important factor in deciding on treatment and estimating the patient's prognosis. After biopsy confirms the presence of cancer in the prostate, the cancer is staged, meaning that more tests are done to find out how far the cancer has spread in the prostate and if it has spread outside the gland to adjacent tissues or to other sites in the body.
Image by TheVisualMD
Preventing Bone Complications From Bone Metastases
Video by For Your Life/YouTube
Impact of Bone Metastases on the Skeleton
Video by Amgen/YouTube
The Biology of Metastatic Bone Disease
Video by Amgen/YouTube
Having a bone scan | Cancer Research UK
Video by Cancer Research UK/YouTube
Introduction to Bone Biology
Video by Amgen/YouTube
bone-scan.swf
Video by Dr Amir Monir/YouTube
Bone Cancer
Video by Focus Medica/YouTube
Limb Lengthening and Reconstruction in Patient with Bone Cancer
Video by Hospital for Special Surgery/YouTube
Q&A: What is Ewing sarcoma? | Texas Children's Cancer and Hematology Centers
Video by Texas Children’s Hospital/YouTube
Ewing's Sarcoma - Mayo Clinic
Video by Mayo Clinic/YouTube
Ewing's Sarcoma, What Is It?
Video by EmpowHER/YouTube
Osteosarcoma - Mayo Clinic
Video by Mayo Clinic/YouTube
Treatment for Osterosarcoma at Boston Children's Hospital
Video by Boston Children's Hospital/YouTube
Chondrosarcoma, What Is This?
Video by EmpowHER/YouTube
Is Your Baby a Boy or a Girl? (Pregnancy Health Guru)
Video by Healthguru/YouTube
Osteomyelitis
James Heilman, MD
Facing Forward: Life After Cancer Treatment
National Cancer Institute (NCI)
Treatment Planning
TheVisualMD
4:17
Preventing Bone Complications From Bone Metastases
For Your Life/YouTube
2:21
Impact of Bone Metastases on the Skeleton
Amgen/YouTube
3:19
The Biology of Metastatic Bone Disease
Amgen/YouTube
1:35
Having a bone scan | Cancer Research UK
Cancer Research UK/YouTube
2:44
Introduction to Bone Biology
Amgen/YouTube
1:13
bone-scan.swf
Dr Amir Monir/YouTube
0:20
Bone Cancer
Focus Medica/YouTube
2:21
Limb Lengthening and Reconstruction in Patient with Bone Cancer
Hospital for Special Surgery/YouTube
5:41
Q&A: What is Ewing sarcoma? | Texas Children's Cancer and Hematology Centers
Texas Children’s Hospital/YouTube
9:01
Ewing's Sarcoma - Mayo Clinic
Mayo Clinic/YouTube
1:52
Ewing's Sarcoma, What Is It?
EmpowHER/YouTube
9:11
Osteosarcoma - Mayo Clinic
Mayo Clinic/YouTube
28:11
Treatment for Osterosarcoma at Boston Children's Hospital
Boston Children's Hospital/YouTube
1:13
Chondrosarcoma, What Is This?
EmpowHER/YouTube
1:29
Is Your Baby a Boy or a Girl? (Pregnancy Health Guru)
Healthguru/YouTube
Bone Marrow Biopsy
Bone Marrow Tests
Also called: Bone Marrow Examination, Bone Marrow Aspiration and Biopsy
Bone marrow tests are used to diagnose and monitor bone marrow diseases, blood disorders, and certain types of cancer. There are two types of bone marrow tests: bone marrow aspiration and bone marrow biopsy, tests usually performed at the same time.
Bone Marrow Tests
Also called: Bone Marrow Examination, Bone Marrow Aspiration and Biopsy
Bone marrow tests are used to diagnose and monitor bone marrow diseases, blood disorders, and certain types of cancer. There are two types of bone marrow tests: bone marrow aspiration and bone marrow biopsy, tests usually performed at the same time.
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Use the slider below to see how your results affect your
health.
Your result is Negative.
A negative bone marrow biopsy results indicates that the bone marrow didn’t have any significant findings with all of the testing that was done. This may mean that certain diseases were not found. It may also mean that the bone marrow is functioning normally.
Related conditions
Bone marrow is a soft, spongy tissue found in the center of most bones. Bone marrow makes different types of blood cells, including:
Red blood cells (also called erythrocytes), which carry oxygen from your lungs to every cell in your body
White blood cells (also called leukocytes), which help you fight infections
Platelets, which help with blood clotting
Bone marrow tests check to see if your bone marrow is working correctly and making normal amounts of blood cells. The tests can help diagnose and monitor bone marrow disorders, blood disorders, and certain types of cancer.
There are two types of procedures used to collect bone marrow samples for testing:
Bone marrow aspiration removes a small amount of bone marrow fluid and cells
Bone marrow biopsy removes a small piece of bone and bone marrow
Bone marrow aspiration and bone marrow biopsy are usually done at the same time.
Other names: bone marrow examination
Bone marrow tests are used to:
Find out the cause of problems with red blood cells, white blood cells, or platelets
Diagnose and monitor blood disorders, such as:
Anemia (when the cause is unknown)
Polycythemia vera
Thrombocytopenia
Diagnose bone marrow disorders
Diagnose and monitor treatment for certain types of cancers, including leukemia, multiple myeloma, and lymphoma
Diagnose the cause of an unexplained fever, which could be from an infection in the bone marrow
Your health care provider may order a bone marrow aspiration and a bone marrow biopsy if other blood tests show your levels of red blood cells, white blood cells, or platelets are not normal.
Too many or too few blood cells may mean you have a medical condition, such as cancer that starts in your blood or bone marrow. If you are being treated for another type of cancer, these tests can find out if the cancer has spread to your bone marrow.
Bone marrow tests may also be used to see how well cancer treatment is working.
Bone marrow aspiration and bone marrow biopsy procedures are usually done at the same time. A health care provider will collect the marrow samples for testing. Usually, the samples can be collected in about ten minutes.
Before the procedure, you may be asked to put on a hospital gown. Your blood pressure, heart rate, and temperature will be checked.
You may choose to have a mild sedative, which is medicine to help you relax. You may also have the choice to use stronger medicine that will make you sleep. Your provider can help you decide which option is best for you.
During the procedure:
You'll lie down on your side or your stomach, depending on which bone will be used to get the samples. Most bone marrow samples are taken from the back of the hip bone, called the iliac crest. But other bones may be used.
An area of skin over the bone will be cleaned with an antiseptic.
You will get an injection (shot) of medicine to numb the skin and the bone underneath. It may sting.
When the area is numb, the provider will make a very small incision (cut) in your skin and insert a hollow needle. You will need to lie very still during the procedure:
The bone marrow aspiration is usually done first. The provider will push the needle into the bone and use a syringe attached to the needle to pull out bone marrow fluid and cells. You may feel a brief, sharp pain. The aspiration takes only a few minutes.
The bone marrow biopsy uses a special hollow biopsy needle inserted through the same skin opening. The provider will twist the needle into the bone to take out a small piece, or core, of bone marrow tissue. You may feel some pressure or brief pain while the sample is being taken.
After the test, the health care provider will cover your skin with a bandage.
If you didn't use medicine to relax or sleep, you'll usually need to stay lying down for about 15 minutes to make sure that the bleeding has stopped. Afterwards, you can do your usual activities as soon as you are able. If you used medicine to relax or sleep, you'll need to stay longer before you can go home. You may also need to rest the next day.
Your provider will tell you whether you need to fast (not eat or drink) for a few hours before the procedure.
Plan to have someone take you home after the test, because you may be drowsy if you are given medicine to help you relax or sleep during the procedure.
You'll receive instructions for how to prepare, but be sure to ask your provider any questions you have about the procedure.
After a bone marrow aspiration and bone marrow biopsy you may feel stiff or sore where the sample was taken. This usually goes away in a few days.
Your provider may recommend or prescribe a pain reliever to help. Don't take any pain medicine your provider hasn't approved. Certain pain relievers, such as aspirin, could increase your risk of bleeding.
Serious symptoms are very rare, but may include:
Increased pain or discomfort where the sample was taken
Redness, swelling, bleeding, or other fluids leaking from at the site
Fever
If you have any of these symptoms, call your provider.
It may take several days or even weeks to get your bone marrow test results. Your provider may have ordered many different types of tests on your marrow sample, so the results often include a lot of complex information. Your provider can explain what your results mean.
In certain cases, if your test results are not normal, you may need to have more tests to confirm a diagnosis or to decide which treatment would be best.
If you have cancer that affects your bones and marrow, your test results may provide information about your cancer stage, which is how much cancer you have in your body and how fast it may be growing.
If you are already being treated for cancer, your test results may show:
How well your treatment is working
Whether your treatment is affecting your bone marrow
Bone Marrow Tests: MedlinePlus Medical Test [accessed on Feb 16, 2024]
Additional Materials (22)
Bone marrow: location and labeled histology (preview) | Kenhub
Video by Kenhub - Learn Human Anatomy/YouTube
What to expect when you have a Bone Marrow Test | Cancer Research UK
Video by Cancer Research UK/YouTube
Having a bone marrow test
Video by Design Science/YouTube
Bone Marrow Transplant - Mayo Clinic
Video by Mayo Clinic/YouTube
Bone Marrow Diseases - What You Need To Know
Video by Rehealthify/YouTube
What Does Bone Marrow Actually Do?
Video by Seeker/YouTube
Aplastic Anemia-Bone Marrow
Image by doctorssupport.org
Bone Marrow Procedure Site
A 3D medical animation still showing preferred Sites for Bone Marrow Aspiration. The preferred sites for the procedure.
Image by Scientific Animations, Inc.
Image of a bone marrow harvest
Georgetown University Hospital, Washington, D.C. -- Surgeon Dr. Hans Janovich performs a bone marrow harvest operation on Aviation Electronics Technician 1st Class Michael Griffioen. The procedure consists of inserting a large-gauge syringe into an area of the hip and extracting the bone marrow. It is transfused into the recipient, and helps to recreate and replenish T-cells and the white and red blood cells killed while undergoing chemotherapy. Griffioen is assigned to the Pre-commissioning Unit Ronald Reagan (CVN 76) and was matched with an anonymous cancer patient through the Department of Defense Marrow Donor Program.
Image by Photographers Mate 2nd Class Chad McNeeley
Diagram showing the process of red blood cell production in the body with healthy and diseased kidneys. On the top half of the diagram, on the left side, a kidney labeled “Healthy kidney” starts the process by producing EPO. Six drops represent “Normal EPO.” An arrow beneath the EPO drops points from the kidney to a cross-section of a bone. Several cells labeled “Normal red blood cells” emerge from the bone marrow. Above the red blood cells, the label “Normal oxygen,” with three arrows pointing
Healthy kidneys produce a hormone called erythropoietin, or EPO, which stimulates the bone marrow to make red blood cells needed to carry oxygen throughout the body. Diseased kidneys don’t make enough EPO, and bone marrow then makes fewer red blood cells.
Image by NIDDK Image Library
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
Erythropoiesis in Bone Marrow
Bone is dynamic, living tissue; 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). Specialized cells in the kidney, which are sensitive to low oxygen levels, produce a hormone called erythropoietin (EPO), which in turn promotes the production of red blood cells. The boost in red blood cell production (erythropoiesis) in turn increases the oxygen-carrying capacity of the blood.
Image by TheVisualMD
Bone Marrow
Red bone marrow fills the head of the femur, and a spot of yellow bone marrow is visible in the center. The white reference bar is 1 cm.
Image by CNX Openstax
This browser does not support the video element.
Femur Bone Marrow Revealing Lacunae and Trabeculae
Camera descending into bone marrow dataset. Within the bone matrix that is shown one can see the spaces in the matrix which are called lacunae and the trabeculae which is a the mesh work of bone tissue
Video by TheVisualMD
Hematopoietic System of Bone Marrow
Hemopoiesis is the proliferation and differentiation of the formed elements of blood.
Image by CNX Openstax
Bone Marrow Biopsy
Bone Marrow Biopsy
Image by Blausen Medical Communications, Inc.
White Blood Cell Count: Bone
White blood cells (WBCs) and red blood cells (RBCs), as well as the cell fragments called platelets, are constantly being produced by bone marrow. Disease, cancer and genetic disorders of bone marrow can, in turn, affect the production of blood cells.
Image by TheVisualMD
Bone marrow core biopsy microscopy panorama
Section of bone marrow core biopsy as seen under the microscope.
Image by Gabriel Caponetti
Bone Marrow Biopsy
Bone Marrow Biopsy
Image by John Doe
Bone Marrow Biopsy
Diagram showing a bone marrow biopsy.
Image by Cancer Research UK / Wikimedia Commons
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
Sensitive content
This media may include sensitive content
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
3:24
Bone marrow: location and labeled histology (preview) | Kenhub
Kenhub - Learn Human Anatomy/YouTube
2:12
What to expect when you have a Bone Marrow Test | Cancer Research UK
Cancer Research UK/YouTube
5:56
Having a bone marrow test
Design Science/YouTube
2:20
Bone Marrow Transplant - Mayo Clinic
Mayo Clinic/YouTube
1:38
Bone Marrow Diseases - What You Need To Know
Rehealthify/YouTube
4:03
What Does Bone Marrow Actually Do?
Seeker/YouTube
Aplastic Anemia-Bone Marrow
doctorssupport.org
Bone Marrow Procedure Site
Scientific Animations, Inc.
Image of a bone marrow harvest
Photographers Mate 2nd Class Chad McNeeley
Diagram showing the process of red blood cell production in the body with healthy and diseased kidneys. On the top half of the diagram, on the left side, a kidney labeled “Healthy kidney” starts the process by producing EPO. Six drops represent “Normal EPO.” An arrow beneath the EPO drops points from the kidney to a cross-section of a bone. Several cells labeled “Normal red blood cells” emerge from the bone marrow. Above the red blood cells, the label “Normal oxygen,” with three arrows pointing
NIDDK Image Library
Red Blood Cells, Bone Marrow
TheVisualMD
Erythropoiesis in Bone Marrow
TheVisualMD
Bone Marrow
CNX Openstax
0:06
Femur Bone Marrow Revealing Lacunae and Trabeculae
TheVisualMD
Hematopoietic System of Bone Marrow
CNX Openstax
Bone Marrow Biopsy
Blausen Medical Communications, Inc.
White Blood Cell Count: Bone
TheVisualMD
Bone marrow core biopsy microscopy panorama
Gabriel Caponetti
Bone Marrow Biopsy
John Doe
Bone Marrow Biopsy
Cancer Research UK / Wikimedia Commons
White Blood Cell Count: Bone Marrow
TheVisualMD
Sensitive content
This media may include sensitive content
Blood Cells
Bruce Wetzel (photographer). Harry Schaefer (photographer), National Cancer Institute
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
A complete blood count is a common blood test that is often part of a routine checkup. Complete blood counts can help detect a variety of disorders including infections, anemia, diseases of the immune system, and blood cancers.
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 health care professional will take a blood sample from a vein in your arm, using a small needle. After the needle is inserted, a small amount of blood will be collected into a test tube or vial. You may feel a little sting when the needle goes in or out. This usually takes less than five minutes.
Usually there is no special preparation necessary for a complete blood count. But if your provider ordered other tests on your blood sample, you may need to fast (not eat or drink) for several hours before the test. Your provider will let you know if there are any special instructions to follow.
There is very little risk to having a blood test. You may experience slight pain or bruising at the spot where the needle went in, but most symptoms go away quickly.
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.
A complete blood count is only one tool your health care provider uses to learn about your health. Your provider will consider your medical history, symptoms, and other factors to make a diagnosis. You may also need additional tests.
Complete Blood Count (CBC): MedlinePlus Medical Test [accessed on Jan 20, 2024]
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
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
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
This browser does not support the video element.
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
This browser does not support the video element.
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
This browser does not support the video element.
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
A red blood cell (RBC) count measures the number of red blood cells, also known as erythrocytes, in your blood. Red blood cells carry oxygen from your lungs to every cell in your body. Your cells need oxygen to grow, reproduce, and stay healthy. An RBC count that is higher or lower than normal is often the first sign of an illness. So the test may allow you to get treatment even before you have symptoms.
Other names: erythrocyte count, red count
A red blood cell (RBC) count is almost always part of a complete blood count, a group of tests that measure many different parts and features of your blood. The RBC measurement is used to help diagnose red blood cell disorders, such as anemia, a condition in which your body does not make enough healthy red blood cells.
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
A health care professional will take a blood sample from a vein in your arm, using a small needle. After the needle is inserted, a small amount of blood will be collected into a test tube or vial. You may feel a little sting when the needle goes in or out. This usually takes less than five minutes.
You don't need any special preparations for a red blood cell (RBC) count.
There is very little risk to having a blood test. There may be slight pain or bruising at the spot where the needle was put in, but most symptoms go away quickly.
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.
Red Blood Cell (RBC) Count: MedlinePlus Medical Test [accessed on Jan 20, 2024]
RBC count: MedlinePlus Medical Encyclopedia [accessed on Jan 20, 2024]
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
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
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
This browser does not support the video element.
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
This browser does not support the video element.
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 health care professional will take a blood sample from a vein in your arm, using a small needle. After the needle is inserted, a small amount of blood will be collected into a test tube or vial. You may feel a little sting when the needle goes in or out.
To test children, a health care provider will take a sample from the heel (newborns and young babies) or the fingertip (older babies and children). The provider will clean the heel or fingertip with alcohol and poke the site with a small needle. The provider will collect a few drops of blood and put a bandage on the site.
You don't need any special preparations for a white blood count.
After 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.
There is very little risk to your baby or child with a needle stick test. Your child may feel a little pinch when the site is poked, and a small bruise may form at the site. This should go away quickly.
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.
White Blood Count (WBC): MedlinePlus Medical Test [accessed on Jan 20, 2024]
WBC count: MedlinePlus Medical Encyclopedia [accessed on Jan 20, 2024]
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
This media may include sensitive content
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
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.
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
Platelets, also known as thrombocytes, are small blood cells that are essential for blood clotting. Clotting is the process that helps you stop bleeding after an injury. There are two types of platelet tests: a platelet count test and platelet function tests.
A platelet count test measures the number of platelets in your blood. A lower than normal platelet count is called thrombocytopenia. This condition can cause you to bleed too much after a cut or other injury that causes bleeding. A higher than normal platelet count is called thrombocytosis. This can make your blood clot more than you need it to. Blood clots can be dangerous because they can block blood flow.
Other names: platelet count, thrombocyte count
A platelet count is most often used to monitor or diagnose conditions that cause too much bleeding or too much clotting. A platelet count may be included in a complete blood count, a test that is often done as part of a regular checkup.
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
Most platelet tests are done on a blood sample.
During the test, a health care professional will take a blood sample from a vein in your arm, using a small needle. After the needle is inserted, a small amount of blood will be collected into a test tube or vial. You may feel a little sting when the needle goes in or out. This usually takes less than five minutes.
You don't need any special preparations for a platelet count 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.
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
Platelet Tests: MedlinePlus Medical Test [accessed on Jan 20, 2024]
Platelet Count (PLT) Blood Test - Testing.com. Dec 19, 2023 [accessed on Jan 20, 2024]
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
This media may include sensitive content
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
A hemoglobin test measures the levels of hemoglobin in your blood. Hemoglobin is a protein in your red blood cells that carries oxygen from your lungs to the rest of your body. If your hemoglobin levels are abnormal, it may be a sign that you have a blood disorder.
Other names: Hb, Hgb
A hemoglobin test is often used to check for anemia, a condition in which your body has fewer red blood cells than normal. If you have anemia, the cells in your body don't get all the oxygen they need. Hemoglobin tests are measured as part of a complete blood count (CBC).
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
A health care professional will take a blood sample from a vein in your arm, using a small needle. After the needle is inserted, a small amount of blood will be collected into a test tube or vial. You may feel a little sting when the needle goes in or out. This usually takes less than five minutes.
You don't need any special preparation for a hemoglobin test. If your health care provider has ordered other tests on your blood sample, you may need to fast (not eat or drink) for several hours before the test. Your health care provider will let you know if there are any special instructions to follow.
There is very little risk to having a blood test. After the test, some people experience mild pain, dizziness, or bruising. These symptoms usually go away quickly.
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.
Some forms of anemia are mild, while other types of anemia can be serious and even life threatening if not treated. If you are diagnosed with anemia, be sure to talk to your health care provider to find out the best treatment plan for you.
Hemoglobin Test: MedlinePlus Medical Test [accessed on Jan 20, 2024]
Hemoglobin: MedlinePlus Medical Encyclopedia [accessed on Jan 20, 2024]
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
A hematocrit test is a blood test that measures how much of your blood is made up of red blood cells. Red blood cells carry oxygen from your lungs to the rest of your body. The other parts of your blood include white blood cells (to help fight infection), platelets (to help make blood clots to stop bleeding), and a liquid called plasma.
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.
Other names: HCT, packed cell volume, PCV, Crit; H and H (Hemoglobin and Hematocrit)
A hematocrit test is often part of a complete blood count (CBC). A CBC is a common blood test that measures the different parts of your blood. It is used to check your general health. It may also be used to help diagnose blood disorders, including anemia, a condition in which you don't have enough red blood cells, and polycythemia, an uncommon disorder in which you have too many red blood cells and your blood becomes too thick.
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
A health care professional will take a blood sample from a vein in your arm, using a small needle. After the needle is inserted, a small amount of blood will be collected into a test tube or vial. You may feel a little sting when the needle goes in or out. This usually takes less than five minutes.
You don't need any special preparations for a hematocrit test. If your provider has ordered more tests on your blood sample, you may need to fast (not eat or drink) for several hours before the test. Your provider will let you know if there are any special instructions to follow.
There is very little risk to having a hematocrit test or other type of blood test. You may have slight pain or bruising at the spot where the needle was put in, but most symptoms go away quickly.
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.
Normal hematocrit levels will be different depending on your sex, age, and the altitude where you live. Ask your provider what hematocrit level is normal for you.
Hematocrit Test: MedlinePlus Medical Test [accessed on Jan 20, 2024]
Hematocrit: MedlinePlus Medical Encyclopedia [accessed on Jan 20, 2024]
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.
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
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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
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
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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
MCV stands for mean corpuscular volume. An MCV blood test measures the average size of your red blood cells.
Red blood cells carry oxygen from your lungs to every cell in your body. Your cells need oxygen to grow, reproduce, and stay healthy. If your red blood cells are too small or too large, it could be a sign of a blood disorder such as anemia, a lack of certain vitamins, or other medical conditions.
Other names: CBC with differential
An MCV blood test is often part of a complete blood count (CBC). A CBC is a common blood test that measures many parts of your blood, including red blood cells. It is used to check your general health.
An MCV test may also be used with other tests to help diagnose or monitor certain blood disorders, including anemia. There are many types of anemia. An MCV test can help diagnose which type of anemia you have.
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)
During the test, a health care professional will take a blood sample from a vein in your arm, using a small needle. After the needle is inserted, a small amount of blood will be collected into a test tube or vial. You may feel a little sting when the needle goes in or out. This usually takes less than five minutes.
You don't need any special preparations for an MCV blood test. If your provider has ordered more tests on your blood sample, you may need to fast (not eat or drink) for several hours before the test. Your provider will let you know if there are any special instructions to follow.
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.
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.
If your provider thinks you may have anemia or another blood disorder, you may have other red blood cell tests with an MCV. These tests may include a red blood cell count and measurements of hemoglobin. All together, these tests are called red blood cell indices.
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
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
This test measures the level of lactate dehydrogenase (LDH) in blood or other body fluids. LDH is an enzyme involved in energy production. High levels may be a sign of tissue damage or disease.
This test measures the level of lactate dehydrogenase (LDH) in blood or other body fluids. LDH is an enzyme involved in energy production. High levels may be a sign of tissue damage or disease.
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Use the slider below to see how your results affect your
health.
U/L
100
200
Your result is Normal.
Normal levels can vary depending on the person's age and the method used for testing.
Related conditions
A lactate dehydrogenase (LDH) test usually measures the level of lactate dehydrogenase (LDH) in a sample of your blood. In certain cases, LDH levels are measured in samples of other body fluids. This includes testing fluid from the spine (cerebrospinal fluid), the belly (peritoneal fluid), and the chest (pleural fluid).
LDH is also called lactic acid dehydrogenase. It is an enzyme. An enzyme is a protein that speeds up certain chemical reactions in your body. LDH helps your cells make energy. It is found in almost all the tissues in your body. The largest amounts of LDH are found in your muscles, liver, kidneys, and red blood cells.
If disease or injury damages tissues that have LDH, their cells release the enzyme into your bloodstream or other body fluids. It's normal to have some LDH in your blood and body fluids. But if your LDH levels are high, it may be a sign of certain diseases or injuries.
An LDH test alone can't show what is damaging your tissues or where the damage is located. So, an LDH test is usually done with other types of tests that can help diagnose the problem.
Other names: LD test, lactic dehydrogenase, lactic acid dehydrogenase
LDH is mainly used to check for tissue damage. Many types of acute (sudden) and chronic (long-lasting) conditions can damage tissues and cause high LDH levels. So LDH testing may be used in many different situations from bone and muscle injuries to monitoring treatment for cancer. For example, an LDH test may be used to:
Help diagnose and/or monitor diseases that affect the:
Blood, including anemia
Liver
Lungs
Kidneys
Heart, including heart attack
Pancreas
Brain and spinal cord, such as encephalitis and bacterial meningitis
Help monitor conditions that may get worse over time, such as muscular dystrophy and HIV
Help diagnose certain severe infections
Find out how serious certain types of cancer may be, including multiple myeloma, lymphoma, leukemia, testicular cancer, and melanoma.
Check whether treatment for certain types of cancer is working
Because LDH testing is used for so many conditions, it's best to ask your health care provider why you need an LDH test. In general, the test is ordered if other tests and/or your symptoms suggest you have tissue damage or disease.
If you have a disease that affects LDH levels, you may need an LDH test to learn more about your condition and to find out if your treatment is helping.
A health care professional will take a blood sample from a vein in your arm, using a small needle. After the needle is inserted, a small amount of blood will be collected into a test tube or vial. You may feel a little sting when the needle goes in or out. This usually takes less than five minutes.
If your provider thinks you have a condition that may affect LDH levels in other body fluids, you may have a procedure to get a fluid sample. These procedures may include:
A lumbar puncture or "spinal tap" to collect cerebrospinal fluid that flows around your brain and spinal cord
A thoracentesis to remove fluid in the chest
A paracentesis or "abdominal tap" to remove fluid from the abdomen
If you are having one of these tests, your provider will explain the procedure.
You don't need any special preparations for an LDH blood test. If your test uses other fluid samples, your provider will tell you how to prepare.
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. If you are having another type of test, your provider will explain the risks.
LDH testing is used for many reasons. The meaning of your LDH test results depends on the reason you had the test, your symptoms, and the results of other tests you've had. So, ask your provider to explain what your results say about your health.
In general, LDH levels that are higher than normal usually mean you have some type of tissue damage. The damage is usually from disease, infection, or injury. Your provider may order more tests to diagnose your condition.
But higher a than normal LDH level doesn't always mean you have a medical condition that needs treatment. High levels can be caused by intense exercise and certain medicines, including aspirin. It's also possible to have a high LDH level if many red blood cells broke open when your sample was collected and tested.
Lower than normal LDH levels aren't common and usually aren't considered to be a health problem. Taking large amounts of vitamin C or vitamin E may cause low levels. Low LDH levels may also be caused by a rare genetic disorder called lactate dehydrogenase deficiency.
If your results showed higher than normal LDH levels, your provider may order a more specific type of LDH test that can help find out where the LDH is coming from. This more specific test is called an LDH isoenzyme test.
An LDH isoenzyme test measures the levels of five different forms of LDH. This information helps your provider find out about the type of tissue that's damaged, where in the body it may be, and how serious the damage may be.
Lactate Dehydrogenase (LDH) Test: MedlinePlus Medical Test [accessed on Jan 28, 2024]
Lactic Acid Dehydrogenase (Blood) - Health Encyclopedia - University of Rochester Medical Center [accessed on Oct 16, 2018]
LabCorp Test Menu / 001115: Lactic Acid Dehydrogenase (LD) [accessed on Oct 16, 2018]
LD - Clinical: Lactate Dehydrogenase (LD), Serum [accessed on Oct 16, 2018]
Lactate Dehydrogenase (LDH) - Understand the Test & Your Results [accessed on Oct 16, 2018]
Lactate dehydrogenase test: MedlinePlus Medical Encyclopedia [accessed on Oct 16, 2018]
Lactate Dehydrogenase Test: Types, Procedure, and Results [accessed on Oct 16, 2018]
Lactate dehydrogenase deficiency - Genetics Home Reference - NIH [accessed on Oct 16, 2018]
Normal reference ranges can vary depending on the laboratory and the method used for testing. You must use the range supplied by the laboratory that performed your test to evaluate whether your results are "within normal limits."
Complications after a heart attack (myocardial infarction) | NCLEX-RN | Khan Academy
Video by khanacademymedicine/YouTube
Preventing Stroke (Stroke #4)
Video by Healthguru/YouTube
Understanding Stroke (Stroke #1)
Video by Healthguru/YouTube
Stroke - Carotid Artery Disease and TIA
Video by EdwardHospital/YouTube
3D Medical Animation - What is a Heart Attack?
Video by BioDigital, Inc./YouTube
Cerebral hemorrhage
Cerebral hemorrhage : This image shows an Intracerebral and Intraventricular hemorrhage of a young woman. The woman was one week post partum, with no known trauma involved.
Image by Glitzy queen00
Cerebral hemorrhage
Cerebral hemorrhage : Spontaneous ICH with hydrocephalus on CT scan.
Image by Yadav YR, Mukerji G, Shenoy R, Basoor A, Jain G, Nelson A
Cerebral hemorrhage
Cerebral hemorrhage : An intracranial bleed with significant midline shift.
Image by James Heilman, MD
Ischemic Stroke
Ischemic Stroke: The illustration shows how an ischemic stroke can occur in the brain. If a blood clot breaks away from plaque buildup in a carotid (neck) artery, it can travel to and lodge in an artery in the brain. The clot can block blood flow to part of the brain, causing brain tissue death.
Image by National Heart Lung and Blood Insitute (NIH)
What Is a Heart Attack?
Diagram showing a heart attack (mycardial infaction).
Image by NIH: National Heart, Lung and Blood Institute
Patrick J. Lynch, medical illustrator; C. Carl Jaffe, MD, cardiologist
Ischemic Stroke
ConstructionDealMkting
Stages
Metastasis
Image by NCI
Metastasis
Metastasis Illustration : This illustration titled "How Cancer Spreads" explains the process of metastasis. Once metastatic cells are attached to the basement membrane (a physical barrier that seperates tissue components), they break through with the help of an enzyme called type IV collagenase. Cancer cells then move through the blood stream enabling them to spread to other parts of the body. A secondary tumor may form at another site in the body.
Image by NCI
Stages of Ewing's Sarcoma
The results of diagnostic and staging tests are used to find out if cancer cells have spread.
The process used to find out if cancer has spread from where it began to other parts of the body is called staging. There is no standard staging system for Ewing sarcoma. The results of the tests and procedures done to diagnose and stage Ewing sarcoma are used to describe the tumors as localized or metastatic.
Ewing sarcoma is described as localized, metastatic, or recurrent.
Ewing sarcoma is described as localized, metastatic, or recurrent.
Localized Ewing sarcoma
The cancer is found in the bone or soft tissue where it began and may have spread to nearby tissue, including nearby lymph nodes.
Metastatic Ewing sarcoma
The cancer has spread from the bone or soft tissue where it began to other parts of the body. In Ewing tumor of bone, the cancer most often spreads to the lung, other bones, and bone marrow.
Recurrent Ewing sarcoma
The cancer has recurred (come back) after it has been treated. The cancer may come back in the bone or soft tissue where it began or in another part of the body.
There are three ways that cancer spreads in the body.
Cancer can spread through tissue, the lymph system, and the blood:
Tissue. The cancer spreads from where it began by growing into nearby areas.
Lymph system. The cancer spreads from where it began by getting into the lymph system. The cancer travels through the lymph vessels to other parts of the body.
Blood. The cancer spreads from where it began by getting into the blood. The cancer travels through the blood vessels to other parts of the body.
Cancer may spread from where it began to other parts of the body.
When cancer spreads to another part of the body, it is called metastasis. Cancer cells break away from where they began (the primary tumor) and travel through the lymph system or blood.
Lymph system. The cancer gets into the lymph system, travels through the lymph vessels, and forms a tumor (metastatic tumor) in another part of the body.
Blood. The cancer gets into the blood, travels through the blood vessels, and forms a tumor (metastatic tumor) in another part of the body.
The metastatic tumor is the same type of cancer as the primary tumor. For example, if Ewing sarcoma spreads to the lung, the cancer cells in the lung are actually Ewing sarcoma cells. The disease is metastatic Ewing sarcoma, not lung cancer.
Source: National Cancer Institute (NCI)
Additional Materials (4)
Ewing's Sarcoma - Mayo Clinic
Video by Mayo Clinic/YouTube
Metastasis: How Cancer Spreads
Video by National Cancer Institute/YouTube
What is Bone Metastasis? (Bone Mets)
Video by healthery/YouTube
Metastasis and angiogenesis
Video by Nanobot Medical Animation Studio/YouTube
9:01
Ewing's Sarcoma - Mayo Clinic
Mayo Clinic/YouTube
1:49
Metastasis: How Cancer Spreads
National Cancer Institute/YouTube
3:43
What is Bone Metastasis? (Bone Mets)
healthery/YouTube
5:03
Metastasis and angiogenesis
Nanobot Medical Animation Studio/YouTube
Treatment
Chemotherapy
Image by Bill Branson (Photographer)
Chemotherapy
Variety of chemotherapy drugs in vials and an IV bottle.
Image by Bill Branson (Photographer)
Treatments of Ewing's Sarcoma
There are different types of treatment for children with Ewing sarcoma.
Different types of treatments are available for children with Ewing sarcoma. Some treatments are standard (the currently used treatment), and some are being tested in clinical trials. A treatment clinical trial is a research study meant to help improve current treatments or obtain information on new treatments for patients with cancer. When clinical trials show that a new treatment is better than the standard treatment, the new treatment may become the standard treatment.
Because cancer in children and adolescents is rare, taking part in a clinical trial should be considered. Some clinical trials are open only to patients who have not started treatment.
Children with Ewing sarcoma should have their treatment planned by a team of health care providers who are experts in treating cancer in children.
Treatment will be overseen by a pediatric oncologist, a doctor who specializes in treating children with cancer. The pediatric oncologist works with other health care providers who are experts in treating children with Ewing sarcoma and who specialize in certain areas of medicine. These may include the following specialists:
Pediatrician.
Surgical oncologist or orthopedic oncologist.
Radiation oncologist.
Pediatric nurse specialist.
Social worker.
Rehabilitation specialist.
Psychologist.
Four types of standard treatment are used:
Chemotherapy
Chemotherapy is a cancer treatment that uses drugs to stop the growth of cancer cells, either by killing the cells or by stopping them from dividing. When chemotherapy is taken by mouth or injected into a vein or muscle, the drugs enter the bloodstream and can reach cancer cells throughout the body (systemic chemotherapy). Combination chemotherapy is treatment using more than one anticancer drug.
Systemic combination chemotherapy is part of the treatment for all patients with Ewing tumors. It is often the first treatment given and lasts for about 6 to 12 months. Chemotherapy is often given to shrink the tumor before surgery or radiation therapy and to kill any tumor cells that may have spread to other parts of the body.
Radiation therapy
Radiation therapy is a cancer treatment that uses high-energy x-rays or other types of radiation to kill cancer cells or keep them from growing. External radiation therapy uses a machine outside the body to send radiation toward the area of the body with cancer.
Radiation therapy is used when the tumor cannot be removed by surgery or when surgery to remove the tumor will affect important body functions or the way the child will look. It may be used to make the tumor smaller and decrease the amount of tissue that needs to be removed during surgery. It may also be used to treat any tumor that remains after surgery and tumors that have spread to other parts of the body.
Surgery
Surgery is usually done to remove cancer that is left after chemotherapy or radiation therapy. When possible, the whole tumor is removed by surgery. Tissue and bone that are removed may be replaced with a graft, which uses tissue and bone taken from another part of the patient's body or a donor. Sometimes an implant, such as artificial bone, is used.
After the doctor removes all the cancer that can be seen at the time of the surgery, some patients may be given chemotherapy or radiation therapy after surgery to kill any cancer cells that are left. Treatment given after the surgery, to lower the risk that the cancer will come back, is called adjuvant therapy.
High-dose chemotherapy with stem cell rescue
High doses of chemotherapy are given to kill cancer cells. Healthy cells, including blood-forming cells, are also destroyed by the cancer treatment. Stem cell transplant is a treatment to replace the blood-forming cells. Stem cells (immature blood cells) are removed from the blood or bone marrow of the patient or a donor and are frozen and stored. After the patient completes chemotherapy, the stored stem cells are thawed and given back to the patient through an infusion. These reinfused stem cells grow into (and restore) the body's blood cells. Chemotherapy with stem cell rescue is used to treat localized and recurrent Ewing sarcoma.
New types of treatment are being tested in clinical trials.
This summary section describes treatments that are being studied in clinical trials. It may not mention every new treatment being studied. Information about clinical trials is available from the NCI website.
Targeted therapy
Targeted therapy is a type of treatment that uses drugs or other substances to identify and attack specific cancer cells. Targeted therapies usually cause less harm to normal cells than chemotherapy or radiation therapy do. Types of targeted therapies used to treat Ewing sarcoma include the following:
Monoclonal antibody therapy: Monoclonal antibodies are immune system proteins made in the laboratory to treat many diseases, including cancer. As a cancer treatment, these antibodies can attach to a specific target on cancer cells or other cells that may help cancer cells grow. The antibodies are able to then kill the cancer cells, block their growth, or keep them from spreading. Monoclonal antibodies are given by infusion. They may be used alone or to carry drugs, toxins, or radioactive material directly to cancer cells. Ganitumab is a monoclonal antibody being studied to treat metastatic Ewing sarcoma.
Kinase inhibitor therapy: This treatment blocks a protein needed for cancer cells to divide. Cabozantinib is a kinase inhibitor being studied to treat recurrent Ewing sarcoma.
NEDD8-activating enzyme (NAE) inhibitor therapy: NAE inhibitors are drugs that attach to NAE and stop the cancer cells from dividing. Pevonedistat is an NAE inhibitor being studied to treat recurrent Ewing sarcoma.
Immunotherapy
Immunotherapy is a treatment that uses the patient's immune system to fight cancer. Substances made by the body or made in a laboratory are used to boost, direct, or restore the body's natural defenses against cancer. This cancer treatment is a type of biologic therapy.
Immune checkpoint inhibitor therapy: This treatment blocks certain proteins made by some immune system cells, such as T cells, and some cancer cells. These proteins help keep immune responses in check and can keep T cells from killing cancer cells. When these proteins are blocked, the “brakes” on the immune system are released and T cells are able to kill cancer cells better. Nivolumab and ipilimumab are types of immune checkpoint inhibitors being studied to treat recurrent Ewing sarcoma.
CAR T-cell therapy: This treatment changes the patient's T cells (a type of immune system cell) so they will attack certain proteins on the surface of cancer cells. T cells are taken from the patient and special receptors are added to their surface in the laboratory. The changed cells are called chimeric antigen receptor (CAR) T cells. The CAR T cells are grown in the laboratory and given to the patient by infusion. The CAR T cells multiply in the patient's blood and attack cancer cells. CAR T-cell therapy is being studied to treat recurrent Ewing sarcoma.
CAR T-cell therapy. A type of treatment in which a patient’s T cells (a type of immune cell) are changed in the laboratory so they will bind to cancer cells and kill them. Blood from a vein in the patient’s arm flows through a tube to an apheresis machine (not shown), which removes the white blood cells, including the T cells, and sends the rest of the blood back to the patient. Then, the gene for a special receptor called a chimeric antigen receptor (CAR) is inserted into the T cells in the laboratory. Millions of the CAR T cells are grown in the laboratory and then given to the patient by infusion. The CAR T cells are able to bind to an antigen on the cancer cells and kill them.
Treatment for Ewing sarcoma may cause side effects.
Side effects from cancer treatment that begin after treatment and continue for months or years are called late effects. Late effects of cancer treatment may include the following:
Physical problems.
Changes in mood, feelings, thinking, learning, or memory.
Second cancers (new types of cancer). Patients treated for Ewing sarcoma have an increased risk of acute myeloid leukemia and myelodysplastic syndrome. There is also an increased risk of sarcoma in the area treated with radiation therapy.
Some late effects may be treated or controlled. It is important to talk with your child's doctors about the effects cancer treatment can have on your child.
Patients may want to think about taking part in a clinical trial.
For some patients, taking part in a clinical trial may be the best treatment choice. Clinical trials are part of the cancer research process. Clinical trials are done to find out if new cancer treatments are safe and effective or better than the standard treatment.
Many of today's standard treatments for cancer are based on earlier clinical trials. Patients who take part in a clinical trial may receive the standard treatment or be among the first to receive a new treatment.
Patients who take part in clinical trials also help improve the way cancer will be treated in the future. Even when clinical trials do not lead to effective new treatments, they often answer important questions and help move research forward.
Patients can enter clinical trials before, during, or after starting their cancer treatment.
Some clinical trials only include patients who have not yet received treatment. Other trials test treatments for patients whose cancer has not gotten better. There are also clinical trials that test new ways to stop cancer from recurring (coming back) or reduce the side effects of cancer treatment.
Clinical trials are taking place in many parts of the country. Information about clinical trials supported by NCI can be found on NCI’s clinical trials search webpage. Clinical trials supported by other organizations can be found on the ClinicalTrials.gov website.
Follow-up tests may be needed.
Some of the tests that were done to diagnose the cancer or to find out the stage of the cancer may be repeated. Some tests will be repeated in order to see how well the treatment is working. Decisions about whether to continue, change, or stop treatment may be based on the results of these tests.
Some of the tests will continue to be done from time to time after treatment has ended. The results of these tests can show if your child's condition has changed or if the cancer has recurred (come back). These tests are sometimes called follow-up tests or check-ups.
Treatment of Localized Ewing Sarcoma
Chemotherapy.
Surgery and/or radiation therapy.
High-dose chemotherapy with stem cell rescue.
Treatment of Metastatic Ewing Sarcoma
Standard treatments for newly diagnosed metastatic Ewing sarcoma include:
Chemotherapy.
Surgery.
Radiation therapy.
Treatment of Recurrent Ewing Sarcoma
There is no standard treatment for recurrent Ewing sarcoma but treatment options may include the following:
Combination chemotherapy.
Radiation therapy to bone tumors, as palliative therapy to relieve symptoms and improve the quality of life.
Radiation therapy that may be followed by surgery to remove tumors that have spread to the lungs.
High-dose chemotherapy with stem cell rescue.
Treatment options being studied for recurrent Ewing sarcoma include the following:
Checking a sample of the patient's tumor for certain gene changes. The type of targeted therapy that will be given to the patient depends on the type of gene change.
Targeted therapy with a tyrosine kinase inhibitor (cabozantinib).
Immunotherapy with an immune checkpoint inhibitor (nivolumab or ipilimumab).
CAR T-cell therapy.
Targeted therapy with an NEDD8-activating enzyme inhibitor (pevonedistat) and chemotherapy.
A clinical trial of a new type of targeted therapy.
Source: National Cancer Institute (NCI)
Additional Materials (4)
Treatment of Recurrent Sarcoma in Children and Young Adults using Immune Checkpoint Inhibitors
Video by Texas Children’s Hospital/YouTube
Battling Ewing's Sarcoma - Jasmine's Story - Nebraska Medicine
Video by Nebraska Medicine Nebraska Medical Center/YouTube
Young Girl Is Cancer-Free After Battle with Ewing's Sarcoma
Video by Cleveland Clinic/YouTube
Immunotherapy Research Using Car T-Cells to Destroy Cancer Cells
Video by Texas Children’s Hospital/YouTube
1:03
Treatment of Recurrent Sarcoma in Children and Young Adults using Immune Checkpoint Inhibitors
Texas Children’s Hospital/YouTube
1:53
Battling Ewing's Sarcoma - Jasmine's Story - Nebraska Medicine
Nebraska Medicine Nebraska Medical Center/YouTube
3:29
Young Girl Is Cancer-Free After Battle with Ewing's Sarcoma
Cleveland Clinic/YouTube
1:17
Immunotherapy Research Using Car T-Cells to Destroy Cancer Cells
Texas Children’s Hospital/YouTube
Prognosis
Doctor Examines Pediatric Patient
Image by National Cancer Institute / Bill Branson (Photographer)
Doctor Examines Pediatric Patient
A doctor examines a pediatric patient who is receiving chemotherapy.
Image by National Cancer Institute / Bill Branson (Photographer)
Prognosis of Ewing's Sarcoma
The factors that affect prognosis are different before and after treatment.
Before any treatment is given, prognosis depends on:
Whether the tumor has spread to lymph nodes or distant parts of the body.
Where in the body the tumor started.
Whether the tumor formed in the bone or in soft tissue.
How large the tumor is when the tumor is diagnosed.
Whether the tumor has caused any broken bones.
Whether the LDH level in the blood is higher than normal.
Whether the tumor has certain gene changes.
Whether tumor DNA has been found in the blood.
Whether the patient is younger than 15 years.
The patient's sex.
Whether the patient has had treatment for a different cancer.
Whether the tumor has just been diagnosed or has recurred (come back).
After treatment, prognosis is affected by:
Whether the tumor was completely removed by surgery.
Whether the tumor responds to chemotherapy or radiation therapy.
If the cancer recurs after initial treatment, prognosis depends on:
Whether the cancer came back more than two years after the initial treatment.
Whether the cancer came back where it first formed or in other parts of the body.
Source: National Cancer Institute (NCI)
Additional Materials (4)
Q&A: What is Ewing sarcoma? | Texas Children's Cancer and Hematology Centers
Video by Texas Children’s Hospital/YouTube
Ewing Sarcoma | Jimmy's story | Stand Up To Cancer
Video by standuptocancerUK/YouTube
Caoimhe talks about her Ewing Sarcoma experience
Video by Irish Cancer Society/YouTube
Ewing’s sarcoma survivor now a pediatric nurse
Video by MD Anderson Cancer Center/YouTube
5:41
Q&A: What is Ewing sarcoma? | Texas Children's Cancer and Hematology Centers
Texas Children’s Hospital/YouTube
2:25
Ewing Sarcoma | Jimmy's story | Stand Up To Cancer
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Ewing Sarcoma
Ewing sarcoma is a malignant (cancerous) bone tumor that affects children. It usually develops during puberty, when bones are growing rapidly. Learn more about this type of tumor.