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MYELOPROLIFERATIVE DISEASES:
Clonal stem cell disorders that lead to uncontrolled hematopoiesis. These related diseases can transform into each other. POLYCYTHEMIA VERA ESSENTIAL THROMBOCYTHEMIA MYELOFIBROSIS CHRONIC MYELOGENOUS LEUKEMIA
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POLYCYTHEMIA VERA Increased red cell mass that is associated with increases in white cell and platelet cnt. Normal red cell mass: F – ml/kg M – ml/kg
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Polycythemia Vera: Pathogenesis
Clonal disorder involving stem cell Autonomous proliferation of the erythroid, myeloid & megakaryocytic cell lines. PV progenitor cells are more resistant to apoptosis. Chromosomal abnormality: 20q-, trisomy 8/9 Unknown
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PV: Clinical Mx Consequence of hyperviscosity: plethora, poor CNS & coronary circulation Abnormal platelet function: venous thrombosis/ thromboembolism, hemorrhage Increase myeloproliferation: splenomegaly, pruritus (increase histamine release)
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PV: Labs Increase Hb & Hct= increase total red cell mass
Leucocytosis – granulocytosis Thrombocytosis BM hyperplasia
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PV: Diagnostic Criteria
Category A: 1. T red cell mass: M > 36 ml/kg F > 32 ml/kg 2. Arterial O2 sat. > 92% 3. Splenomegaly
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PV: Dx Category B: 1. Thrombocytosis (PC.> 400T)
2. Leucocytosis (WBC > 12T) 3. Increase LAP score 4. Serum B12 conc. >900 pg/ml Dx: A1+A2+A3 or A1+A2+ any 2 frm B
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PV: Complications Erythromelalgia- erythema, warmth, pain
“digital infarction” Thrombosis – 15-60% ; MR – 10-40% Hemorrhage – 15-35%; MR – 6-30% Peptic Ulcer disease Pancytopenia & myelofibrosis – “spent phase” – 30-70% Acute leukemic transformation- 1%
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PV: Mgt Reduction of Hyperviscosity - phlebotomy ( target Hct- 47%)
<50 y.o. – 1 U (450 ml) q other day > 70 y.o. – ml TIW + myelosuppressive therapy(hydroxyurea/interferon) erythrocytosis=thrombosis Aspirin/Salicylates – erythromelalgia Splenomegaly
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LEUKEMIAS Neoplastic expansion of hematopoietic cells in blood and bone marrow *ACUTE Leukemia- expansion of immature cells * CHRONIC Leukemia- expansion of mature cells Incidence: 4 –5% of cancer among all age group.
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AML: Etiology 1. Radiation – genetic damage; immunosuppression
2. Chemicals – benzene 3. Viruses – human T-cell leukemia virus RNA 4. Hereditary influences 5. Non random chromosome abnormalities
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AML CLINICAL MANIFESTATION: * Infiltration of organs
* granulocytopenia * thrombocytopenia
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AML: FAB Classification
M1- AML without differentiation M2 – AML with differentiation M3- Acute Promyelocytic Leukemia 50% of cases Chromosomes +8, -5,-7 T(8;21) Multiple AUER RODS FIBRINOLYSIS common T(15:17) / 10% of cases
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AML: FAB Classification
M4 – Acute Myelomonocytic Leuk M5-Acute Monocytic Leukemia M6-Acute Erythroleukemia (erythremic myelosis) M7 Acute Megakaryocytic Leukemia 15% of cases Frquent extramedullary dss Children/young adults 10% cases Gum,CNS,LN, extramedullary infiltration Long prodromal prd. 5% of cases DRY TAP coz myelofibrosis AML of DOWNs Syndrome
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ACUTE LYMPHOCYTIC LEUKEMIA
Clonal proliferation of lymphoid progenitor cells originating in the marrow
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ALL: FAB Classification
SIZE L1- small, uniform CYTPLSM Scanty, basophilia NUCLEUS Regular shape,inscnpcous nucleoli AGE C- 85% A- 31% L2-large, non-uniform variable Irreglr shape, prmnt nucleoi C- 14% A-60% L3- large, uniform Abundant, deep basophilia Reglr shape Promnt nucleoli C- 1% A- 9%
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ALL: Classification by IMMUNOPHENOTYPING
Early pre-B Pre-B B-cell T-cell
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ACUTE LEUKEMIA: Treatment
1. Bone Marrow Transplant a. Allogeneic BMT yrs old with histocompatible sibling ( 50% long term dss free survival) Cx: graft vs. host dss. intestinal pneumonitis Relapse rate: %
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2. Autologous BMT- individuals own marrow for reinfusion
* up to 60 yrs. Old * MR: <10% Cx: potential for reinfusion of leukemic cells Long term dss-free survival –50%
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ACUTE Leukemia: Treatment
1. Induction Chemotherapy: over all remission rate- 65% 2. Post Remission Therapy: * Consolidation * Maintenance * CNS Prophylaxis Sanctuary Sites: CNS & Testes
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Treatment: Supportive Care
1. Antimicrobials: Infection- main threat to absolutely neutropenic pts. High Risk Group: a. prior high dose steroid b. protracted granulocytopenia c. previous fungal sepsis
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Acute Leukemia: Treatment
2. Transfusion therapy - component therapy: pRBC, platelet concentrate 3. Hematopoietic growth factors
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ALL: Treatment Complications
1. DIC – common in APL – cells lyse & release of thrombogenic materials 2. Hyperleukocytic leukemia- leukostasis 3. Meningeal Leukemia- ALL & Monocytic variant AML 4. Tumor Lysis Syndrome a. hypocalcemia b. hyperkalemia c. hyperphosphatemia d. hyperuricemia e. increasre crea, BUN; LDH
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Prognostic Factors in Childhood ALL
PARAMETER GOOD POOR White cell cnt Low (<50T) High Age Young (1-10) Oldr (>10) CALLA presnt absnt Lymp cell type Early B cell T cell Cytogenetics normal abnormal FAB class L1 L2
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