Acute lymphocytic leukemia (ALL)
- By sahlhealth
- May 18, 2021
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Acute Lymphocytic Leukemia (ALL) is a type of cancer of the blood and bone marrow â€” the spongy tissue inside bones where blood cells are made.
The word “acute” in acute lymphocytic leukemia comes from the fact that the disease progresses rapidly and creates immature blood cells, rather than mature ones.
The word “lymphocytic” in acute lymphocytic leukemia refers to the white blood cells called lymphocytes, which ALL affects. Acute lymphocytic leukemia is also known as acute
lymphoblastic leukemia. Acute lymphocytic leukemia is the most common type of cancer in children, and treatments result in a good chance for a cure. Acute lymphocytic leukemia can also occur in adults,though the chance of a cure is greatly reduced.
Signs and Symptoms of Acute Lymphocytic Leukemia may include:
- Bleeding from the gums.
- Bone pain.
- Frequent infections.
- Frequent or severe nosebleeds.
- Lumps caused by swollen lymph nodes in and around the neck, underarm, abdomen or groin.
- Pale skin.
- Shortness of breath.
- Weakness, fatigue or a general decrease in energy.
When to see a doctor
Make an appointment with your doctor or your child's doctor if you notice any persistent signs and symptoms that may concern you.
Many signs and symptoms of acute lymphocytic leukemia mimic those of the flu. However, flu signs and symptoms eventually improve. If signs and symptoms don't improve as expected, make an appointment with your doctor.
Tests and Procedures used to diagnose Acute Lymphocytic Leukemia include:
- Blood tests. Blood tests may reveal too many white blood cells, not enough red blood cells and not enough platelets. A blood test may also show the presence of blast cells â€” immature cells normally found in the bone marrow.
- Bone marrow test. During bone marrow aspiration, a needle is used to remove a sample of bone marrow from the hipbone or breastbone. The sample is sent to a lab for testing to look for leukemia cells. Doctors in the lab will classify blood cells into specific types based on their size, shape and other genetic or molecular features. They also look for certain changes in the cancer cells and determine whether the leukemia cells began from the B lymphocytes or T lymphocytes. This information helps your doctor develop a treatment plan.
- Imaging tests. Imaging tests such as an X-ray, computerized tomography (CT) scan or ultrasound scan may help determine whether cancer has spread to the brain and spinal cord or other parts of the body.
- Spinal fluid test. A lumbar puncture test, also called a spinal tap, may be used to collect a sample of spinal fluid â€” the fluid that surrounds the brain and spinal cord. The sample is tested to see whether cancer cells have spread to the spinal fluid.
In general, treatment for Acute Lymphocytic Leukemia falls into separate phases:
- Induction therapy. The purpose of the first phase of treatment is to kill most of the leukemia cells in the blood and bone marrow and to restore normal blood cell production.
- Consolidation therapy. Also called post-remission therapy, this phase of treatment is aimed at destroying any remaining leukemia in the body, such as in the brain or spinal cord.
- Maintenance therapy. The third phase of treatment prevents leukemia cells from regrowing. The treatments used in this stage are often given at much lower doses over a long period of time, often years.
- Preventive treatment to the spinal cord. During each phase of therapy, people with acute lymphocytic leukemia may receive additional treatment to kill leukemia cells located in the central nervous system. In this type of treatment, chemotherapy drugs are often injected directly into the fluid that covers the spinal cord.
Depending on your situation, the phases of treatment for acute lymphocytic leukemia can span two to three years.
Treatments may include:
- Chemotherapy. Chemotherapy, which uses drugs to kill cancer cells, is typically used as an induction therapy for children and adults with acute lymphocytic leukemia. Chemotherapy drugs can also be used in the consolidation and maintenance phases.
- Targeted therapy. Targeted drugs attack specific abnormalities present in cancer cells that help them grow and thrive. A certain abnormality called the Philadelphia chromosome is found in some people with acute lymphocytic leukemia. For these people, targeted drugs may be used to attack cells that contain that abnormality. Targeted therapy may be used during or after chemotherapy.
- Radiation therapy. Radiation therapy uses high-powered beams, such as X-rays or protons, to kill cancer cells. If the cancer cells have spread to the central nervous system, your doctor may recommend radiation therapy.
- Bone marrow transplant. A bone marrow transplant, also known as a stem cell transplant, may be used as consolidation therapy in people at high risk of relapse or for treating relapse when it occurs. This procedure allows someone with leukemia to re-establish healthy bone marrow by replacing leukemic bone marrow with leukemia-free marrow from a healthy person. A bone marrow transplant begins with high doses of chemotherapy or radiation to destroy any leukemia-producing bone marrow. The marrow is then replaced by bone marrow from a compatible donor (allogeneic transplant).
- Clinical trials. Clinical trials are experiments to test new cancer treatments and new ways of using existing treatments. While clinical trials give you or your child a chance to try the latest cancer treatment, treatment benefits and risks may be uncertain. Discuss the benefits and risks of clinical trials with your doctor.
ALL in older adults
Older adults, such as those older than 60, tend to experience more complications from ALL treatments. And older adults generally have a worse prognosis than children who are treated for ALL.
Discuss your options with your doctor. Based on your overall health and your goals and preferences, you may decide to undergo treatment for your ALL.
Some people may choose to forgo treatment for the cancer, instead focusing on treatments that improve their symptoms and help them make the most of the time they have remaining.
Acute lymphocytic leukemia occurs when a bone marrow cell develops errors in its DNA. The errors tell the cell to continue growing and dividing, when a healthy cell would normally stop dividing and eventually die. When this happens, blood cell production becomes abnormal. The bone marrow produces immature cells that develop into leukemic white blood cells called lymphoblasts. These abnormal cells are unable to function properly, and they can build up and crowd out healthy cells.
It's not clear what causes the DNA mutations that can lead to acute lymphocytic leukemia. But doctors have found that most cases of acute lymphocytic leukemia aren't inherited.
Factors that may increase the risk of acute lymphocytic leukemia include:
- Previous cancer treatment. Children and adults who've had certain types of chemotherapy and radiation therapy for other kinds of cancer may have an increased risk of developing acute lymphocytic leukemia.
- Exposure to radiation. People exposed to very high levels of radiation, such as survivors of a nuclear reactor accident, have an increased risk of developing acute lymphocytic leukemia.
- Genetic disorders. Certain genetic disorders, such as Down syndrome, are associated with an increased risk of acute lymphocytic leukemia.
- Having a brother or sister with ALL. People who have a sibling, including a twin, with acute lymphocytic leukemia have an increased risk of ALL.