This page was reviewed under our medical and editorial policy by
Maurie Markman, MD, President, Medicine & Science
This page was updated on May 26, 2022.
Most cancers are staged based on the size and spread of tumors. However, because leukemia occurs in the developing blood cells in the bone marrow, leukemia staging is a little bit different. The stages of leukemia are often characterized by blood cell counts and the accumulation of leukemia cells in other organs, like the liver or spleen, with each subtype staged using a system designed specifically for leukemia.
Making an educated treatment decision begins with the stage, or progression, of the disease. The stage of leukemia is one of the most important factors in evaluating treatment options.
Factors affecting leukemia staging and prognosis include:
This article will cover:
A numbered staging system is used to describe most types of cancer and their spread throughout the body. Typically, the size of the tumor and the spread of the cancer are evaluated and a stage is assigned. For acute lymphocytic leukemia (ALL), staging does not occur in this way because the disease originates in the bone marrow and usually does not form tumor masses. Because ALL typically spreads to other organs before it's detected, the staging method takes into account other factors to differentiate the stages.
Rather than using traditional staging methods, physicians often factor in the subtype of ALL and the patient's age. This usually involves cytologic tests, flow cytometry and other lab tests to identify the subtype of ALL.
B lymphocytes, or B-cells, are produced in the bone marrow. They also mature there. B-cells play a large role in humoral immune response and serve the principal functions of making antibodies against antigens and developing into memory B-cells after they have been activated by antigen interaction. They are used to classify ALL as one of the types listed below.
Early pre-B ALL: Approximately 10 percent of ALL cases
Common ALL: Approximately 50 percent of cases
Pre-B ALL: Approximately 10 percent of cases
Mature B-cell ALL: Approximately 4 percent of cases
T lymphocytes, or T-cells, leave the bone marrow before maturation and move to the thymus, where they mature. T-cells play a central role in cell-mediated immunity. There are several different subsets of T cells that have distinct functions. The different subsets of T-cells include helper, cytotoxic, memory, regulatory, natural killer and gamma delta T-cells. They are used to classify ALL as one of the types listed below.
Pre-T ALL: Approximately 5 percent to 10 percent of cases
Mature T-cell ALL: Approximately 15 percent to 20 percent of cases
Because acute myeloid leukemia (AML) starts in the bone marrow and is usually not detected until it has spread to other organs, traditional cancer staging is not needed. The subtype of AML is classified using a cytologic (cellular) system. Physicians are better able to predict how the cancer will respond to treatment based on the cellular classification and, in turn, more accurately assess the prognosis.
Using a system known as French-American-British (FAB) classification, AML is classified as one of eight subtypes, M0 through M7, based on:
The eight AML stages are classified as listed below.
Undifferentiated AML - M0: In this stage of acute myelogenous leukemia, the bone marrow cells show no significant signs of differentiation between healthy and abnormal cells.
Myeloblastic leukemia - M1: Bone marrow cells show some signs of granulocytic differentiation with or without minimal cell maturation.
Myeloblastic leukemia - M2: Maturation of the bone marrow cells is beyond the promyelocyte (early granulocyte) stage. Varying amounts of granulocyte maturation may be observed.
Promyelocytic leukemia - M3: Most of the abnormal cells are early granulocytes, between myeloblasts and myelocytes in their stage of development. The cells contain many small particles and have nucleuses of varying size and shape.
Myelomonocytic leukemia - M4: In this stage of acute myelogenous leukemia, the bone marrow and circulating blood have variable amounts of monocytes and differentiated granulocytes in them. The percentage of monocytes and promonocytes in the bone marrow is greater than 20 percent. There may also be an increased number of granular leukocytes called eosinophils, a type of granulocyte that often has a two-lobed nucleus.
Monocytic leukemia - M5: This subset is further divided into two different categories. The first is characterized by poorly differentiated monoblasts with lacy-appearing genetic material. The second subset is characterized by a large number of monoblasts, promonocytes and monocytes. The proportion of monocytes in the bloodstream may be higher than that in the bone marrow.
Erythroleukemia - M6: This form of leukemia is characterized by abnormal red blood cell-forming cells, which make up over half of the nucleated cells in the bone marrow.
Megakaryoblastic leukemia - M7: The blast cells in this form of leukemia look like immature megakaryocytes (giant cells of the bone marrow) or lymphoblasts (lymphocyte-forming cells). M7 leukemia may cause extensive fibrous tissue deposits (fibrosis) in the bone marrow.
Due to the way this disease develops and spreads, chronic lymphocytic leukemia (CLL) staging is different from staging for the types of cancers that form tumors. Instead of rating the size and extent of tumors, the Rai staging system is based on blood cell counts. The Binet system (more commonly used in Europe than in the United States) stages CLL based on the spread of the cancer throughout the lymph nodes in three stages simply labeled A, B and C. By identifying the stage of chronic lymphocytic leukemia, the care team may choose when to begin treatment and determine which CLL treatments to recommend.
Chronic lymphocytic leukemia stages in the Rai system are defined by three main factors: the number of the lymphocytes in the blood; whether the lymph nodes, spleen or liver are enlarged; and whether the blood disorders anemia (too few red blood cells) or thrombocytopenia (too few platelets) have developed.
In general, CLL begins as a condition called lymphocytosis, which is having too many lymphocytes. A count of over 10,000 lymphocytes per sample is considered too high and is the benchmark for stage 0. The five stages are labeled 0-4, as listed below.
CLL stage 0: The levels of the lymphocytes are too high, usually more than 10,000 in one sample. No other symptoms have developed at this point, and other blood cell counts are normal.
CLL stage 1: In addition to the high levels of lymphocytes (lymphocytosis), the lymph nodes are swollen. The levels of red blood cells and platelets are still normal.
CLL stage 2: The number of lymphocytes remains high, and now the liver or spleen may be larger than normal.
CLL stage 3: The excess amount of lymphocytes begins to crowd out the red blood cells, resulting in anemia. The lymph nodes may be swollen, and the liver or spleen may be larger than normal.
CLL stage 4: The levels of red blood cells and platelets drop below normal, causing anemia and thrombocytopenia. The lymph nodes may be swollen, and the liver or spleen may be larger than normal.
The Rai system of chronic lymphocytic leukemia staging is sometimes simplified into low risk (stage 0), medium risk (stage 1 and 2) and high risk (stage 3 and 4). The care team may use this classification to help determine when to begin treatment.
Like the Rai system, advanced stages of chronic lymphocytic leukemia are characterized by the presence of blood disorders resulting from too few red blood cells and platelets. However, instead of relying on the counts from a leukemia blood test, the Binet system evaluates how many areas of lymphoid tissue are affected. (Note: The Binet stages are commonly referred to by clinical stage.)
Clinical stage A: Lymph nodes may be swollen, but the cancer is limited to fewer than three areas.
Clinical stage B: More than three areas of lymphoid tissues are swollen.
Clinical stage C: Either one or both of the blood disorders anemia and thrombocytopenia have developed.
In order to stage chronic myeloid leukemia (CML), the care team examines blood and bone marrow tests to determine the number of diseased cells. The three stages of CML are listed below.
Chronic phase CML: This is the earliest phase of CML. The majority of CML patients are diagnosed during this phase as a result of mild symptoms, particularly fatigue.
Accelerated phase CML: If CML has not responded to treatment well during the chronic phase, it becomes more aggressive, which may lead to the accelerated phase. At this point, symptoms may become more noticeable.
Blastic phase CML: This is the most aggressive stage of chronic myeloid leukemia. Blastic refers to having more than 20 percent myeloblasts or lymphoblasts. Symptoms are similar to those of acute myeloid leukemia.
One way cancer patients can estimate life expectancy is to review the five-year relative survival rate for that cancer type. This indicates how many people with the same type of cancer are alive five years or more after a diagnosis, compared to people who don’t have that cancer type.
The overall five-year relative survival rate for leukemia is 66.7 percent, according to the National Cancer Institute SEER (Surveillance, Epidemiology and End Results) Program.
Five-year relative survival rates differ depending on the type of leukemia. Below are the overall five-year relative survival rates.
ALL survival rates: According to the SEER Program, the overall five-year relative survival rate for acute lymphocytic leukemia is 71.3 percent. Learn more about ALL survival rates.
AML survival rates: According to the SEER Program, the overall five-year relative survival rate for acute myeloid leukemia is 31.7 percent. Learn more about AML survival rates.
CLL survival rates: According to the SEER Program, the overall five-year relative survival rate for chronic lymphocytic leukemia is 88 percent. Learn more about CLL survival rates.
CML survival rates: According to the SEER Program, the overall five-year relative survival rate for chronic myeloid leukemia is 70.6 percent. Learn more about CML survival rates.
Keep in mind that the survival rate for leukemia depends on a variety of factors, including the patient’s age, overall health and the extent of the disease, so always talk to the care team about the patient’s individual prognosis.
Next topic: How is leukemia diagnosed?