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Waldenstrom macroglobulinemia (WM) is often found when a person goes to see their doctor because of symptoms they are having, or because they just don’t feel well and go in for a checkup. Sometimes it’s found in people without symptoms when they have blood tests done for some other reason.
If signs or symptoms suggest that a person might have WM, exams and tests will be done to be sure. The most important tests will look for abnormal proteins in the blood and abnormal cells in the bone marrow. Because WM is a type of lymphoma, like other lymphomas it can invade the bone marrow, lymph nodes, and other organs.
Your doctor will want to get a thorough medical history, including information about your symptoms, possible risk factors, family history, and other medical conditions.
Next, the doctor will examine you, paying special attention to your lymph nodes and other areas of your body that might be involved, including the eyes, nerves, spleen, and liver. The doctor might also look for signs of infection, which can cause many of the same symptoms.
If the doctor suspects that WM (or another type of lymphoma) might be causing your symptoms, the next step probably will be to order blood tests. You might also be referred to a hematologist, a doctor who specializes in diseases of the blood, or an oncologist, a doctor who specializes in cancer.
WM might be suspected if your doctor finds you have low blood cell counts or unusual protein levels on blood tests. If so, your doctor may order a blood test called serum protein electrophoresis to find out what the abnormal proteins are. It is usually only after these tests are done that a biopsy of either the bone marrow or a lymph node is considered.
The complete blood count (CBC) is a test that measures the levels of red blood cells, white blood cells, and platelets. If lymphoma cells occupy too much of the bone marrow, these blood levels may be low.
This test measures the levels of the different antibodies (immunoglobulins) in the blood – IgA, IgE, IgG, and IgM – to see if any are abnormally high or low. In WM the level of IgM is high but the IgG level is often low.
The abnormal immunoglobulin made in WM is an IgM antibody. This antibody is monoclonal, meaning that it is many copies of the exact same antibody. Serum protein electrophoresis (or SPEP) is a test that measures the total amount of immunoglobulins in the blood and finds any monoclonal immunoglobulin. Another test, such as immunofixation electrophoresis, is then used to determine the type of antibody that is abnormal (IgM or some other type).
Finding a monoclonal IgM antibody in the blood is needed to diagnose WM. This abnormal protein in WM is known by many different names, including monoclonal immunoglobulin M, IgM protein, IgM spike, IgM paraprotein, M protein, and M-spike. High levels of other types of monoclonal immunoglobulins, like IgA or IgG, are seen in different disorders (like multiple myeloma and some other lymphomas).
Sometimes pieces of the IgM protein are excreted by the kidneys into the urine. These proteins can be detected with a test called urine protein electrophoresis (or UPEP).
Viscosity is a measure of how thick the blood is. If the IgM level is too high, the blood will become thick (viscous) and can’t flow freely (think about pouring honey compared to pouring water).
This test measures the blood levels of cryoglobulins (proteins that clump together in cool temperatures and can block blood vessels).
Cold agglutinins are antibodies that attack and kill red blood cells, especially at cooler temperatures. These dead cells can then build up and block blood vessels. A blood test can be used to detect these antibodies.
This test measures another protein made by the cancer cells in WM. This protein itself doesn’t cause any problems, but it’s a useful indicator of a patient’s prognosis (outlook). High levels of β2M are linked with a worse outlook.
The symptoms of WM and non-Hodgkin lymphoma (NHL) are not distinctive enough for a doctor to know for certain if a person has one of them, based on symptoms alone. Most symptoms can also be caused by non-cancerous problems like infections or by other kinds of cancers. Blood tests can help point to the correct diagnosis, but a biopsy (removing samples of affected tissue to look at under a microscope) is the only way to be sure. Several types of biopsies might be used.
This is the most important type of biopsy for WM, and is needed to confirm the diagnosis. It can be done at the doctor’s office or at the hospital.
The bone marrow aspiration and biopsy are usually done at the same time. The samples are taken from the back of the pelvic (hip) bone, although in some cases they may be taken from the sternum (breast bone) or other bones.
Once the biopsy is done, pressure is applied to the site to help stop any bleeding. There will be some soreness in the biopsy area when the numbing medicine wears off. Most patients can go home right after the procedure.
The bone marrow samples are then sent to a lab, where they are tested to see if they have lymphoma cells (see below). For a diagnosis of WM, at least 10% of the cells in the bone marrow must be lymphoplasmacytoid lymphoma cells.
In an FNA biopsy, the doctor uses a very thin, hollow needle with a syringe to withdraw a small amount of tissue from a tumor or lymph node. This type of biopsy is useful for sampling lymph nodes to see if they are enlarged because of cancer or an infection. FNA can help diagnose some lymphomas, but WM is usually diagnosed with a bone marrow biopsy.
For an FNA on an enlarged node near the surface of the body, the doctor can aim the needle while feeling the node. If the enlarged node (or tumor) is deep inside the body, the needle can be guided while it is seen on a computed tomography (CT) scan or ultrasound (see the descriptions of imaging tests later in this section).
The main advantage of FNA is that it does not require surgery and can often be done in a doctor’s office. The main drawback is that in some cases it might not get enough tissue to make a definite diagnosis of lymphoma. However, advances in lab tests (discussed later in this section) and the growing experience of many doctors with FNA have improved the accuracy of this procedure.
For these types of biopsies, a surgeon cuts through the skin to remove an entire lymph node or tumor (excisional biopsy) or just a small part of a large tumor or lymph node (incisional biopsy). These biopsies are rarely needed in people with WM because the diagnosis is usually made with a bone marrow biopsy. They are used more often for other types of lymphoma.
If the area to be biopsied is near the skin surface, this can be done using local anesthesia (numbing medicine). If the area is inside the chest or abdomen, general anesthesia or deep sedation is used (where the patient is asleep). These types of biopsies almost always provide enough tissue to diagnose the exact type of lymphoma.
This type of biopsy may be used in some people with WM to check for amyloid. In this procedure, a thin, hollow needle with a syringe attached is inserted into an area of fat (usually under the skin of the abdomen/belly). A small amount of fat is removed and sent to the lab for testing.
All biopsy specimens are looked at in the lab by a pathologist – a doctor with special training in using lab tests to diagnose diseases. In some cases, a hematopathologist, a doctor with further training in diagnosing blood and lymph node diseases, might also look at the biopsy. The doctors look at the size and shape of the cells and how they are arranged. Sometimes just looking at the cells doesn’t provide a clear answer, so other lab tests are needed.
In this test, a part of the biopsy sample is treated with special man-made antibodies that attach to cells only if they contain specific proteins. These antibodies cause color changes in the cells, which can be seen with a microscope. This test may help tell different types of lymphoma from one another and from other diseases.
In this test, cells are treated with special man-made antibodies. Each antibody sticks only to certain types of cells. The cells are then passed in front of a laser beam. If the cells now have antibodies attached to them, the laser will make them give off light, which is measured and analyzed by a computer.
This is the most common test for immunophenotyping – classifying lymphoma cells according to the proteins (antigens) on their surfaces. Different types of lymphocytes have different antigens on their surface. These antigens also change as each cell matures.
This test can help show if a lymph node is swollen because of lymphoma, some other cancer, or a non-cancerous disease. It has become very important in helping doctors determine the exact type of lymphoma so they can select the best treatment.
Doctors use this technique to look at the chromosomes (long strands of DNA) inside lymphoma cells. Cells (usually from the bone marrow) are first grown in the lab. Then the chromosomes are stained and looked at closely. Because it takes time for the cells to start dividing, this test can take a few weeks.
In some lymphomas, the cells may have too many chromosomes, too few chromosomes, missing parts of chromosomes (called deletions), or other abnormalities. These changes can help identify the type of lymphoma.
Molecular tests such as fluorescent in situ hybridization (FISH) and polymerase chain reaction (PCR) are not usually needed to diagnose WM, but they are sometimes used to diagnose other types of NHL. These tests look at the cells’ DNA without having to grow the cells in the lab first. The tests can give results in less time than cytogenetics and can be done on cells from different sources (like lymph nodes, blood, and bone marrow). They are generally used to look for specific chromosome or gene changes, not just any change.
See Testing Biopsy and Cytology Specimens for Cancer to learn more about tests used to diagnose cancer and what the results can tell you.
Imaging tests use x-rays, magnetic fields, sound waves, or radioactive particles to produce pictures of the inside of the body. These tests are not needed to diagnose WM, but one or more of them might be done to help show how much disease and where it is in the body.
An x-ray might be done to look at the chest for enlarged lymph nodes.
The CT scan is an x-ray that makes detailed cross-sectional images of your body. Unlike a regular x-ray, CT scans can show the detail in soft tissues (such as internal organs). This scan can help show if any lymph nodes or organs in your body are enlarged. CT scans are useful for looking for signs of lymphoma in the chest, abdomen, and pelvis.
CT-guided needle biopsy: CT scans can also be used to guide a biopsy needle into a suspicious area. For this procedure, the patient lies on the CT scanning table while the doctor moves a biopsy needle through the skin and toward the area. CT scans are repeated until the needle is in the right place. A biopsy sample is then removed and sent to the lab.
This test is rarely used in WM, but if your doctor is concerned about the brain or spinal cord, MRI is very useful for looking at these areas.
Ultrasound can be used to look at lymph nodes near the surface of the body or to look inside your abdomen for enlarged lymph nodes or organs such as the liver, spleen, and kidneys. (It can’t be used to look at organs or lymph nodes in the chest because the ribs block the sound waves.) It is sometimes used to help guide a biopsy needle into an enlarged lymph node.
A PET scan can be helpful in spotting small collections of cancer cells. It is even more valuable when combined with a CT scan (PET/CT scan).
PET scans also can help tell if an enlarged lymph node contains lymphoma or not. It can help spot small areas that might be lymphoma, even if the area looks normal on a CT scan. These tests can be used to tell if a lymphoma is responding to treatment. They can also be used after treatment to help decide whether an enlarged lymph node still contains lymphoma or is merely scar tissue.
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National Comprehensive Cancer Network (NCCN). Clinical Practice Guidelines in Oncology: Waldenstrom’s macroglobulinemia/Lymphoplasmacytic lymphoma. V.1.2018. Accessed at www.nccn.org/professionals/physician_gls/pdf/waldenstroms.pdf on June 21, 2018.
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Last Revised: July 19, 2018
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