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the Myelodysplastic Syndromes: what they are, what they mean and what are we doing about it. Anthony Woods, MD September 30, 2006. outline. what is myelodysplasia? diagnosis & classification treatment strategies specialty clinics. What is…?.
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the Myelodysplastic Syndromes:what they are, what they mean and what are we doing about it Anthony Woods, MD September 30, 2006
outline • what is myelodysplasia? • diagnosis & classification • treatment strategies • specialty clinics
What is…? “clonal disorder affecting hematopoietic maturation, characterized by ineffective hematopoiesis and bone marrow failure with resultant cytopenias, often culminating in florid acute leukemia” huh?
historically • reports of cytopenic disorders began appearing in the early 20th century 1942: “odo-leukemia” • odo = threshold (Chevalier et al) 1949: “preleukemic anemia” (Hamilton-Paterson) 1953: expanded definition to include all blood lines “clonal myeloid hemopathy” (Block et al)
historically • other terms used over the last 50 years: • herald state of leukemia • refractory anemia • sideroachrestic anemia • idiopathic refractory sideroblastic anemia • pancytopenia with hyperplastic marrow • oligoblastic leukemia
soapbox no surprise that there is confusion and ignorance about this disorder: historical coupling of MDS to acute myeloid leukemia • there is a relationship • has hindered consideration of MDS as a distinct entity • biased investigational and therapeutic efforts towards the leukemia
historically • Paris, 1975: hemopoietic dysplasia • subsequently shortened to myelodysplasia • 1982: French-American-British classification scheme (FAB) • 1999-2002: World Health Organization classification scheme
What is myelodysplasia? • disordered production of one or more cell lines “dysplasia” abnormal growth and differentiation of hematopoietic precursors • abnormal appearance under the microscope
dysplastic features - blood normal
what goes wrong with marrow cells? • multistep process • sequence of successive DNA mutations in an early blood cell precursor cell • evolution of this cell into a “clone” • self-reproducing abnormal cell • growth advantage over normal marrow cells
what goes wrong with marrow cells? complex multistep process: • DNA mutations in an early blood cell precursor cell • emergence as an abnormal clone • self-reproducing, abnormal cell • growth advantage over normal marrow cells BUT at the same time incapable of producing normal blood cells
what goes wrong with marrow cells? expansion of the abnormal clone results in ineffective hematopoiesis • marrow looks full • no useful blood cell production actually occurring • suppression and inhibition of normal marrow growth “weeds growing in the garden” Dr. R. Wells
what goes wrong with marrow cells? • worse, over time the clone becomes more and more unstable • ~ 25% of persons with MDS develop acute myeloid leukemia
what goes wrong with marrow cells? AML MDS C. Willman, ASH Education Program, 2000
causes • may follow exposures to bone marrow toxins • chemotherapy • radiation • organic compounds • some follow inherited tendencies • Fanconi anemia, disorders of DNA repair • > 80% have no identifiable exposure or cause
in whom and how often • can affect people of any age • including children • more common in advancing age • North America: mid-late 60’s • China: 50 • 10000-15000 new diagnoses per year in USA • Canada 10% ?
in whom and how often MDS Foundation estimates that in people older than 70 there are 15 - 50 new diagnoses / 100,000 persons per year extrapolating USA estimates, perhaps 3000 - 6000 Canadians have an MDS diagnosis at any given time
diagnosis • requires suspicion • typically 2 settings where MDS should be suspected: • signs or symptoms of a blood disorder • fatigue, exercise intolerance, pale • serious or recurrent infections • inappropriate bleeding and bruising
diagnosis • unexpected finding in blood suggesting MDS: • low blood count of any kind • > 80% have anemia ± others • 30 – 45% have low platelets • macrocytosis (large red cells) • high monocyte count • abnormal appearing blood cells
diagnosis required evaluation: • complete history and examination • complete blood counts and diff • iron, B12 and folate levels • bone marrow aspirate & biopsy • chromosome analysis: “cytogenetics” • serum erythropoietin levels • prior to transfusions
diagnosis • tests that are useful in some clinical circumstances • HLA tissue typing (if BMT a consideration) • HIV testing • other specific tests • PNH • other HLA determinations
diagnosis • no perfect diagnostic test • no absolute diagnostic criteria • combination of findings: • appearance of dysplasia in blood and marrow • abnormal cytogenetic testing
complications related to low blood counts • fatigue, decreased exercise tolerance • serious, recurrent infection • bleeding • the latter two are responsible for the majority of severe and life-threatening complications of MDS
complications • approximately 25% of patients undergo a transformation to acute myeloid leukemia • arbitrary distinction of having 20% blast cells in bone marrow • represents an increase in the aggressiveness of their MDS • associated with a worse prognosis
complications suspected if: • drop in baseline blood counts • higher blast cell numbers showing up in blood • higher transfusion requirements • non-specific symptoms • weight loss
classification 2 classification systems still in use • FAB System • newer WHO classification
many clinicians still primarily use this system framework upon which newer classifications are built FAB grouping gives prognostic information: FAB classification all tables from Steensma et al, May Clin Proc, 2006
WHO Classification meant to refine the FAB system: • incorporated new information • cytogenetics • added subcategories for recognized specific sub-entities • 5q- syndrome • also takes into account changes in AML diagnostic criteria • 20% vs 30%
International Prognostic Scoring System • need for a better system to predict prognosis in certain patient groups • IPSS: a tool specifically designed for prognostic purposes • arose out of a 1997 international workshop on MDS Risk Analysis • analyzed factors in 816 patients
therapy • many potential therapies available to & tried in MDS patients • most show some benefit • most benefits are • small • only in a minority subset of patients • hard to know who should receive them and what to expect
transfusion and general supportive measures • most persons with MDS require transfusion support at some time during their course • most people do not tolerate hemoglobin < 80 g/L • at least 80 or for comfort/symptoms • CMV negative products in potential BMT recipients
therapy • platelet transfusion is individualized based on baseline counts and bleeding symptoms • alloimmunization to platelets • local blood bank guidelines • adjunctive agents can be used • tranexamic acid
therapy • management of iron overload • Dr. Wells
therapy • prompt attention given to infectious symptoms • primary care physicians should be aware of increased importance of infections in persons with MDS • trials of growth factors with infections • inpatient setting • selected outpatients
therapy growth factors: erythropoietin and G-CSF • rationale is to encourage hematopoiesis • responses are variable • expensive, not readily obtainable to everyone • 3rd party insurance • “sneak” past renal guidelines
therapy • EPO compounds (Eprex) have generally shown response rates of 15-20% • better responses seen in: • RCMD-RS • low EPO levels • lighter transfusion needs • responses generally last 1-2 years • doses: 40-60,000 units SC weekly • newer compounds appear equally effective • darbepoietin (Aranesp)
therapy • response rates may increase up to twofold if recombinant granulocyte colony stimulating factor (G-CSF) is added • generally done in a stepwise fashion • doses of 1 µcg/kg day typical starting point • similar difficulties in obtaining drug
therapy chemotherapy • high-risk MDS patients with high blast counts or those who have transformed are candidates for treatment with traditional chemotherapy regimens • similar to AML therapy