Acute myelogenous leukemia
Categories: Hematology | Oncology
| Acute myelogenous leukemia | ||
|---|---|---|
| ICD-10 code: | C92.0 | |
| ICD-9 code: | 205.0 | |
Acute myelogenous leukemia (AML), also known as acute myeloid leukemia, is a cancer of the myeloid line of blood cells. The median age of patients with AML is 70; it is rare among children.
Myeloid leukemias are characterized as "acute" or "chronic" based on how quickly they progress if not treated. Chronic myelogenous leukemia (CML) is often without symptoms and can remain dormant for years before transforming into a blast crisis, which is markedly similar to AML.
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Pathophysiology
Specific chromosomal abnormalities are seen in patients with some forms of AML. These chromosomal abnormalities tend to disrupt genes that encode for transcription factors needed for myeloid stem cells to differentiate into specific blood components. Without differentitation occurring, these myeloid precursor cells fill the bone marrow and spill out into the blood. The overpopulation of the bone marrow with myeloid precursors also results in supression of normal marrow stem cells, giving rise to the symptoms of anemia (lack of red blood cells), thrombocytopenia (lack of platelets), and neutropenia (lack of neutrophils).
Subtypes
Acute myelogenous leukemia have been divided into 8 subtypes, M0 through to M7 under the French-American-British (FAB) classification system based on the type of cell from which the leukemia developed and degree of maturity. This is done by examining the appearance of the malignant cells under light microscopy or cytogenetically by characterization of the underlying chromosomal abnormality. Each subtype is characterised by a particular pattern of chromosomal translocations and have varying prognoses and responses to therapy.
The eight different subtypes are:
- M0 (undifferentiated AML)
- M1 (myeloblastic, immature)
- M2 (myeloblastic, mature)
- M3 (promyelocytic), or acute promyelocytic leukemia (APL)
- M4 (myelomonocytic)
- M5 (monocytic)
- M6 (erythrocytic)
- M7 (megakaryoblastic)
Subtype M2 is the most common among AML patients and comprises approximately 25% of adult AML patients, it also carries a favourable prognosis. Subtype M3 (acute promyelocytic leukemia) carries the best prognosis, whilst M0, M6, and M7 carry the worst prognoses. APL has a unique treatment with ATRA (see below) compared to the other subtypes of AML
Symptoms
Most signs and symptoms of AML are due to the increased numbers of malignant white blood cells and a lack of normal blood cell production in the bone marrow. The early signs of AML may be similar to those of influenza or other common illnesses, and often have many different signs and symptoms. Some generalized symptoms include:
- Fever
- Fatigue
- Weight loss or loss of appetite
- Shortness of breath (dyspnea)
- Anemia
- Easy bruising or bleeding
- Petechiae - flat, pin-head sized spots under the skin caused by bleeding
- Bone and joint pain
- Persistent infections
Some patients of AML with subtype M5 may experience swelling of the gums due to the spread of the disease there. Occasionally, a person may show no symptoms and the leukemia is discovered during a routine blood test. Usually, the symptoms of AML appear within a few weeks and experience sudden onset of illness.
Diagnosis
Patients with AML usually present with symptoms such as fatigue, bleeding, infection, prompting medical attention. An abnormal blood test reading will then result in further testing in a hospital with a hematologist to determine AML. Most patients with AML will experience a high count of malignant white blood cells, and low counts of red blood cells and platelets.
A bone marrow aspiration or biopsy is then conducted to identify the type of abnormal blood cells and determine the best treatment plan for the patient. The marrow is taken from the back of the hipbone.
Because acute promyelocytic leukemia has the highest curability and has a unique form of treatment, it is important to establish or exclude the diagnosis of this subtype of leukemia.
Causes
There is ongoing research into the causes of acute myelogenous leukaemia however it is not known for sure what causes it.
It is thought that in very rare cases, excessive exposure to harmful chemicals such as benzene and radiation such as atomic bomb explosions may trigger abnormal DNA mutations, resulting in leukemia. Patients who have received previous treatment with certain drugs (alkylating agents) are also at higher risk of developing AML.
Because of inherited genetic defects, some individuals are born with an abnormal immune system, which causes them to be at higher risk of developing leukemia.
Treatment
Chemotherapeutic treatment is divided into two phases: induction and postremission therapy. In all FAB subtypes except M3, the usual initial treatment includes cytarabine (ara-C) and an anthracycline (such as daunorubicin or idarubicin). Because of the toxicity of therapy (from myelosuppression and increased risk of infection), induction chemotherapy is not generally offered to the very elderly.
Complete remission is obtained in about 50-75% of newly diagnosed adults. The bone marrow is examined for malignant cells following induction chemotherapy. Complete remission does not mean that the disease has been cured, but rather, signifies that no disease can be detected (i.e. <5% leukemic blasts in the bone marrow).
Once complete remission is achieved, additional therapy is necessary to eliminate non-detectable disease to prevent relapse of disease and achieve a cure. Postremission therapy can include more intensive chemotherapy, known as consolidation chemotherapy, or bone marrow transplant. However, despite aggressive therapy, only 20-30% of patients enjoy long term disease free survival.
The M3 subtype, also known as acute promyelocytic leukemia, is almost universally treated by the drug ATRA (all-trans-retinoic acid). For relapsed APL, arsenic trioxide has been tested in trials and approved by the FDA. Like ATRA, arsenic trioxide does not work with other sub-types of AML.