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Chronic Lymphocytic Leukemia: Risk factors and complications

Chronic Lymphocytic Leukemia: Risk factors and complications. By Olfat M. Hendy Professor of Clinical Pathology (Hematology & Immunology), NLI- Menoufia University Egypt. Objectives. Understand the CLL pathogenesis and causes

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Chronic Lymphocytic Leukemia: Risk factors and complications

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  1. Chronic Lymphocytic Leukemia: Risk factors and complications By Olfat M. Hendy Professor of Clinical Pathology (Hematology & Immunology), NLI- Menoufia University Egypt

  2. Objectives • Understand the CLL pathogenesis and causes • Discuss risk factors of CLL and how affecting diagnosis and treament outcome • Discuss the complication of CLL

  3. Chronic Lymphocytic leukemia • The World Health Organization (WHO) includes “lymphocytic leukemias” and “lymphoma” within one classification. • However, Lymphoma begins in a lymph node, or another lymphatic structure in the skin, gastrointestinal tract, or some other site in the body. Lymphocytic leukemia develops in the lymphatic tissue within the bone marrow.

  4. What is CLL? • Chronic lymphocytic leukemia (CLL) results from an acquired (not present at birth) mutation in the DNA of a single marrow cell that develops into a lymphocyte. • In 95 percent of people with CLL, the change occurs in a B lymphocyte. • In the other 5 percent of people with CLL, the cell that transforms from normal to leukemic has the features of a T lymphocyte or a natural killer (NK) cell

  5. The Course of CLL • Once the marrow cell undergoes the leukemic change, it multiplies into many cells. • The result is  uncontrolled growth of CLL cells in the marrow, leading to an increase in the number of CLL cells in the peripheral blood.

  6. The leukemic cells that accumulate in the marrow in people with CLL do not prevent normal blood cell production. • So, this is the reason for the generally less severe early course of CLL. • CLL takes different forms; some people have disease that is slow growing (stable disease) and some have faster growth.

  7. People with minimal changes in their blood cell counts (a little or no decrease in the number of red blood cells, normal neutrophil and platelet counts) may have stable disease for years. • Other people with CLL have a faster-growing form of the disease due to marked increase of number of lymphocytes leading to  the CLL cells accumulate in the bone marrow and blood, and there is a significant decrease in the numbers of red blood cells and platelets.

  8. People with faster-growing CLL may have; • A severe immunoglobulin deficiency, sometimes coupled with a low neutrophil count, which can lead to recurrent infections. • Enlarged lymph nodes: that can lead to compression of neighboring organs (eg; enlarged lymph nodes in the abdomen can interfere with the functions of the GIT and/or the urinary tract). • An enlarged spleen which can press on the stomach causing early fullness and also discomfort in the left upper part of the abdomen.

  9. Diagnosis and Risk Factors • Incidence: CLL is more common in people who are 70 years and older • The incidence of the disease increases from less than one per 100,000 in individuals aged 40 to 44 years to more than 30 per 100,000 in individuals aged 80 and older. • Older patients tend to have a worse outcome due to being diagnosed with a more aggressive CLL and the inability to tolerate treatment and symptoms of the disease.

  10. Common Tests Used to Evaluate CLL: Laboratory tests: • Complete blood count and blood chemistry studies. • Immunophenotyping by Flow cytometry. • Immunohistochemistry. • Fluorescence in-situ hybridization (FISH) and conventional chromosomal analysis. • Polymerase chain reaction (PCR) for mutational status Other tests: • Biopsies: Lymph node biopsy ( when clinically indicated), BM examination and aspiration (not necessarily performed to diagnose CLL). • Imaging tests: X-ray, CT and PET (positron emission tomography) scan (not routinely performed)

  11. Diagnosis: Briefly; • 1- Blood Cell Count and Examination. • A patient with CLL will have increased numbers of lymphocyte, low platelet counts and low RBCs counts may also be present.

  12. 2- Bone Marrow Examination: a BM aspiration and biopsy generally are not needed to make a diagnosis of CLL provided RBCs and platelets are normal. • However, these tests are recommended before treatment as a baseline data that can rule out other diseases. • They can also be used later on to evaluate the effects of therapy. • The bone marrow biopsy results will also show one of four patterns characteristic of CLL: nodular, interstitial, mixed or diffuse.

  13. Chronic lymphocytic leukemia, peripheral blood (a); and BM aspirate (b)

  14. 3- Immunophenotyping. (or flow cytometry) of lymphocytes is an important process used to diagnose CLL, and other types of leukemia and lymphoma. • Immunophenotyping also determines whether the CLL cells are from a change in either B-cell or T-cell development. CLL: making the diagnosis if; • Persistent lymphocytosis > 5×109/L with chracteristic morphology andmonoclonal phenotype: CD 5+, 19+, 22+, 20+, 23+, SmIg (dim), CD79b low/-, CD10-

  15. CD5+ CD19+ FMC7- CD79b(low/neg) CD22 (low/neg) CD20 (low) SmIg dim CD23+ CD10 (neg) CD11c (low/neg)

  16. 4- Immunoglobulin Levels. - The measurement of the concentration of immunoglobulins(gamma globulins) in the blood is another important test. • People with CLL often have low levels of immunoglobulins because CLL cells do not make effective antibodies. 5- B2 microglobulin level. 6- LDH serum level.

  17. Risk Factor and outcome of patients with CLL depends on: • 1- CLL Staging. • 2- Chromosomal Changes and Mutational Status.

  18. 1- Staging: • Staging for CLL helps doctors to both assess how the disease is expected to progress over time and also to develop a treatment plan Staging systems for CLL take into account: • The elevation of blood and marrow leukemic lymphocyte counts. • The size and distribution of lymph nodes • The spleen size. • The degree of anemia and the extent of decreased blood platelet counts.

  19. Table 1. Commonly Used CLL Staging Systems :

  20. 2- Chromosomal Changes:CLL patients who are tested with “fluorescence in situ hybridization (FISH)” are found to have chromosomal abnormalities.

  21. Some Factors That Influence the Decisionto Treat Patients Who Have CLL: • Enlarging lymph nodes • Enlarging spleen • Worsening anemia • Absolute lymphocyte count (>300,000/ul) • Falling platelet count • CLL symptoms (such as fatigue, night sweats, weight loss, fever, etc.) • The presence of risk factors.

  22. Complications: CLL or CLL Treatment 1- Infection. • Infections are a common complication for people with CLL. Because of this high risk of infections, immediate vaccination for pneumococcal pneumonia (repeated every 5 years) and a yearly flu vaccine is recommended. A higher risk of infection is caused by: • - The inability of the person’s CLL cells to make antibodies needed to fight infections. • - The effect of chemotherapy, which causes reduced cell counts for certain infection-fighting white blood cells in the blood, specifically neutrophils and monocytes.

  23. Management of infection; • Antibiotic and antifungal therapy are usually required to treat bacterial or fungal infections during the course of the disease. • People who get recurrent infections may also receive gamma globulin injections to correct the immune deficiency. • CLL-related low blood counts are often therapy related are corrected by blood component therapy. • White blood cell growth factors (G-CSF, GM-CSF) may used in some situations.

  24. 2- Anemia. Anemia is a common side effect of chemotherapy and corrected by blood transfusions. 3- Richter Transformation. - In about 3 to 5% of people with CLL, the disease transforms into an aggressive lymphoma because of a change in the characteristics of the CLL cells. - This is much more common in IgHv-unmutated CLL. - People with this type of CLL may have significantly enlarged lymph nodes, and may have fevers and weight loss. - Richter transformation is treated with aggressive chemotherapy and reduced-intensity allogeneic transplantation, if feasible. • Outcome for patients with Richter transformation is generally poor unless it is diagnosed prior to receiving CLL therapy.

  25. Richter's syndrome; peripheral blood. This large immature cell has the morphological characteristics of an immunoblast,

  26. 4- Prolymphocytic leukemia (PLL): • About 15% of people with CLL have leukemia cells that are a mix of lymphocytes and another type of white blood cell, called a prolymphocyte”. • Most people with this type of CLL follow a similar course to that of other people with CLL. • The spleen may enlarge further, and the disease may become less responsive to treatment.

  27. (a) Chronic lymphocytic leukemia, mixed cell type (CLL/PL); peripheral blood; (b) Prolymphocytoid transformation (PLL) of B CLL; peripheral blood.

  28. 5 - Autoimmune Hemolytic Anemia. • Some people with CLL produce “autoantibodies” thet are usually directed against the patient’s red blood cells and causes them to be removed rapidly from the blood. • This condition, called “autoimmune hemolytic anemia,” can worsen the effects of already low red blood cell counts. • The “antiglobulintest” or “Coombs test” is used to identify the autoantibodies. • Less often, the antibody works against the platelets can cause an “immune thrombocytopenia,” leading to a significant decreased platelet counts.

  29. 6- Second Cancers. • People with CLL have a higher risk of developing a second cancer. • The second cancers that frequently developed are melanoma, soft tissue sarcoma, colorectal cancer, lung cancer, squamous cell skin cancer and basal cell carcinoma. • Both treated and untreated people with CLL can develop AML or myelodysplastic syndromes. • This complication is more common after treatment with fludarabine and cyclophosphamide or fludarabine/ cyclopho-sphamide/ rituximab. • It is important to follow up with patients on a regular basis during and after therapy.

  30. Take Home Message • 1-For diagnosing B-CLL: identify >5.000 monoclonal B-cells in peripheral blood with a compatible immunophenotype. • 2- The characteristic immunophenotype: CD19+, CD5+, CD23+, CD20/low, CD22 low/neg, CD79b low/neg, sIg/low, FMC7-, CD10-, CD11c+low/neg,CD103- . • 3- Including markers related to prognosis: CD38, CD49d, Zap70, detection of chromosomal changes at chromosome most commonly 11, 12, 13, 17 and less commonly 14, 6. • 5- The risk factors in CLL depend upon the chromosomal changes at chromosomes above, unmutatedIgHv, and P53 gene mutations. • 6- The most common complications of CLL are: infections, anemia, Richter transformation, autoimmune HA, PLL and development of second cancers.

  31. Thank You

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