Myelodysplastic syndrome: Difference between revisions
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The average age at diagnosis for MDS is about 65 years, but pediatric cases have been reported. Some patients have a history of exposure to chemotherapy (especially alkylating agents such as [[melphalan]], mustard, [[cyclophosphamide]], [[busulfan]], and [[chlorambucil]]) or [[radiation]] (therapeutic or accidental), or both (e.g., at the time of stem cell transplantation for another disease). Workers in some industries with heavy exposure to hydrocarbons such as the petroleum industry have a slightly higher risk of contracting the disease than the general population. Males are slightly more frequently affected than females. Xylene and benzene exposure has been associated with myelodysplasia. | The average age at diagnosis for MDS is about 65 years, but pediatric cases have been reported. Some patients have a history of exposure to chemotherapy (especially alkylating agents such as [[melphalan]], mustard, [[cyclophosphamide]], [[busulfan]], and [[chlorambucil]]) or [[radiation]] (therapeutic or accidental), or both (e.g., at the time of stem cell transplantation for another disease). Workers in some industries with heavy exposure to hydrocarbons such as the petroleum industry have a slightly higher risk of contracting the disease than the general population. Males are slightly more frequently affected than females. Xylene and benzene exposure has been associated with myelodysplasia. | ||
In actual MDS, dysplasia will affect all three lineages seen in the bone marrow. The best way to diagnose dysplasia is by morphology and special stains (PAS) used on the bone marrow aspirate and peripheral blood smear. Dysplasia in the myeloid series is defined by: | |||
*Granulocytic series | *Granulocytic series | ||
*# Hypersegmented neutrophils (also seen in Vit B12/Folate deficiency) | *# Hypersegmented neutrophils (also seen in Vit B12/Folate deficiency) |
Revision as of 16:09, 13 February 2007
Template:DiseaseDisorder infobox The myelodysplastic syndromes (MDS, formerly known as "preleukemia") are a diverse collection of hematological conditions united by ineffective production of blood cells and varying risks of transformation to acute myelogenous leukemia. Anemia requiring chronic blood transfusion is frequently present. Although not a true malignant neoplasm, MDS is nevertheless classified within the hematological neoplasms.
Signs and symptoms
Abnormalities include:
- neutropenia, anemia and thrombocytopenia (low cell counts of white and red blood cells, and platelets, respectively)
- abnormal granules in cells, abnormal nuclear shape and size
- chromosomal abnormalities, including chromosomal translocations and abnormal chromosome number.
Symptoms of myelodysplastic conditions:
- Anemia—chronic tiredness, shortness of breath, chilled sensation, sometimes chest pain
- Neutropenia (low neutrophil count)—increased susceptibility to infection
- Thrombocytopenia (low platelet count)—increased susceptibility to bleeding
Although there is some risk for developing acute myelogenous leukemia, about 50% of deaths occur as a result of bleeding or infection. Leukemia that occurs as a result of myelodyplasia is notoriously resistant to treatment.
Diagnosis
Investigation:
- Full blood count and examination of blood film
- Bone marrow examination by an experienced hematopathologist
- Cytogenetics or chromosomal studies. This is performed on the bone marrow aspirate.
Pathophysiology
MDS is thought to arise from mutations in the multi-potent bone marrow stem cell, but the specific defects responsible for these diseases remain poorly understood. Differentiation of blood precursor cells is impaired, and there is a significant increase in levels of cell death apoptosis in bone marrow cells. Clonal expansion of the abnormal cells results in the production of cells which have lost the ability to differentiate. If the overall percentage of bone marrow blasts rises over a particular cutoff (20% for WHO and 30% for FAB) then transformation to leukemia (specifically acute myelogenous leukemia or AML) is said to have occurred. The progression of MDS to leukemia is a good example of the multi-step theory of carcinogenesis in which a series of mutations occur in an initially normal cell and transform it into a cancer cell.
While recognition of leukemic transformation was historically important (see History), a significant proportion of the morbidity and mortality attributable to MDS results not from transformation to AML but rather from the cytopenias seen in all MDS patients. While anemia is the most common cytopenia in MDS patients, given the ready availability of blood transfusion MDS patients rarely suffer injury from severe anemia. However, if an MDS patient is fortunate enough to suffer nothing more than anemia over several years, they then risk iron overload. The two most serious complications in MDS patients resulting from their cytopenias are bleeding (due to lack of platelets) or infection (due to lack of white blood cells).
Types and classification
French-American-British (FAB) classification
In 1974 and 1975 a group of pathologists from France, the United States, and Britain met and deliberated and derived the first widely used classification of these diseases. This French-American-British (FAB) classification was published in 1976 and revised in 1982. Cases were classified into 5 categories: (ICD-O codes are provided where available)
- (Template:ICDO) Refractory anemia (RA) - characterized by less than 5% primitive blood cells (myeloblasts) in the bone marrow and pathological abnormalities primarily seen in red cell precursors;
- (Template:ICDO) Refractory anemia with ringed sideroblasts (RARS) - also characterized by less than 5% myeloblasts in the bone marrow, but distinguished by the presence of 15% or greater red cell precursors in the marrow being abnormal iron-stuffed cells called "ringed sideroblasts";
- (Template:ICDO) Refractory anemia with excess blasts (RAEB) - characterized by 5-19% myeloblasts in the marrow;
- (Template:ICDO) Refractory anemia with excess blasts in transformation (RAEB-T) - characterized by 20-29% myeloblasts in the marrow (30% blasts is defined as acute myeloid leukemia);
- (Template:ICDO) Chronic myelomonocytic leukemia (CMML) - not to be confused with chronic myelogenous leukemia or CML - characterized by less than 20% myeloblasts in the bone marrow and greater than 1000 * 109/uL monocytes (a type of white blood cell) circulating in the peripheral blood.
A table comparing these is available from the Cleveland Clinic.
The best prognosis is seen with refractory anemia with ringed sideroblasts and refractory anemia, where some non-transplant patients live more than a decade (the average is on the order of 3-5 years, although long term remission is possible if a bone marrow transplant is successful); the worst outlook is with RAEB-T, where the mean life expectancy is less than 1 year. About 1/4 of patients develop overt leukemia. The others die of complications of low blood count or unrelated disease. The International Prognostic Scoring System is another tool for determing the prognosis of MDS, published in Blood in 1997.[1] This system takes into account the percentage of blasts in the marrow, cytogenetics, and number of cytopenias.
The FAB classification was used by pathologists and clinicians for almost 20 years.
WHO classification
In the late 1990s a group of pathologists and clinicians working under the World Health Organization (WHO) modified this classification, introducing several new disease categories and eliminating others.
One new category was refractory cytopenia with multilineage dysplasia (RCMD), which includes patients with pathological changes not restricted to red cells (i.e., prominent white cell precursor and platelet precursor (megakaryocyte) dysplasia. See below for morphologic definitions of dysplasia.
The list of dysplastic syndromes under the new WHO system includes:
- Refractory anemia (RA)
- Refractory anemia with ringed sideroblasts (RARS)
- Refractory cytopenia with multilineage dysplasia (RCMD)
- Refractory cytopenia with multilineage dysplasia and ringed sideroblasts (RCMD-RS)
- Refractory anemia with excess blasts I and II
- 5q- syndrome
- Myelodysplasia unclassifiable (seen in those cases of megakaryocyte dysplasia with fibrosis and others)
RAEB was divided into *RAEB-I (5-10% blasts) and RAEB-II (11-19%) blasts, which has a poorer prognosis than RAEB-I. Auer rods may be seen in RAEB-II which may be difficult to distinguish from acute myeloid leukemia.
The category of RAEB-T was eliminated; such patients are now considered to have acute leukemia. 5q- syndrome, typically seen in older women with normal or high platelet counts and isolated deletions of the long arm of chromosome 5 in bone marrow cells, was added to the classification.
CMML was removed from the myelodysplastic syndromes and put in a new category of myelodysplastic-myeloproliferative overlap syndromes. Not all physicians concur with this reclassification. This is because the underlying pathology of the diseases is not well understood. It is difficult to classify things that are not well understood.
Diagnosis
The average age at diagnosis for MDS is about 65 years, but pediatric cases have been reported. Some patients have a history of exposure to chemotherapy (especially alkylating agents such as melphalan, mustard, cyclophosphamide, busulfan, and chlorambucil) or radiation (therapeutic or accidental), or both (e.g., at the time of stem cell transplantation for another disease). Workers in some industries with heavy exposure to hydrocarbons such as the petroleum industry have a slightly higher risk of contracting the disease than the general population. Males are slightly more frequently affected than females. Xylene and benzene exposure has been associated with myelodysplasia.
In actual MDS, dysplasia will affect all three lineages seen in the bone marrow. The best way to diagnose dysplasia is by morphology and special stains (PAS) used on the bone marrow aspirate and peripheral blood smear. Dysplasia in the myeloid series is defined by:
- Granulocytic series
- Hypersegmented neutrophils (also seen in Vit B12/Folate deficiency)
- Hyposegmented neutrophils (Pseudo-Pelger Huet)
- Hypogranular neutrophils or pseudo Chediak Higashi large granules
- Dimorphic granules (basophilic and eosinophilic granules) within eosinophils
- Erythroid series
- Binucleated erythroid percursors and karyorrhexis
- Erythroid nuclear budding
- Erythroid nuclear strings or internuclear bridging (also seen in congenital dyserythropoietic anemias)
- PAS (globular in vacuoles or diffuse cytoplasmic staining) within erythroid precursors in the bone marrow aspirate (has no bearing on paraffin fixed bone marrow biopsy). Note: One can see PAS vacuolar positivity in L1 and L2 blasts (AFB classification; the L1 and L2 nomenclature is not used in the WHO classification)
- Ringed sideroblasts seen on Prussian blue iron stain (10 or more iron granules encircling 1/3 or more of the nucleus and >15% ringed sideroblasts when counted amongst red cell precursors)
- Megakaryocytic series (can be the most subjective)
- Hyposegmented nuclear features in platelet producing megakaryocytes (lack of lobation)
- Hypersegmented (osteoclastic appearing) megakaryocytes
- Balooning of the platelets (seen with interference contrast microscopy)
Other stains can help in special cases (PAS and napthol ASD chloroacetate esterase positivity) in eosinophils is a marker of abnormality seen in chronic eosinophilic leukemia and is a sign of aberrancy.
On the bone marrow biopsy high grade dysplasia (RAEB-I and RAEB-II) may show atypical localization of immature precursors (ALIPs) which are islands of immature cells clustering together. This morphology can be difficult to recognize from treated leukemia and recovering immature normal marrow elements. Also topographic alteration of the nucleated erythroid cells can be seen in early myelodysplasia (RA and RARS), where normoblasts are seen next to bony trabeculae instead of forming normal interstitially placed erythroid islands.
Myelodysplasia is a diagnosis of exclusion and must be made after proper determination of iron stores, vitamin deficiencies, and nutrient deficiencies are ruled out. Also congenital diseases such as congenital dyserthropoietic anemia (CDA I through IV) has been recognized, Pearson's syndrome (sideroblastic anemia), Jacobson's syndrome, ALA (aminolevulinic acid) enzyme deficiency, and other more esoteric enzyme deficiencies are known to give a pseudomyelodysplastic picture in one of the cell lines, however, all three cell lines are never morphologically dysplastic in these entities with the exception of chloramphenicol, arsenic toxicity and other poisons.
All of these conditions are characterized by abnormalities in the production of one or more of the cellular components of blood (red cells, white cells other than lymphocytes and platelets or their progenitor cells, megakaryocytes).
Epidemiology
The exact number of people with MDS is not known because it can go undiagnosed and there is no mandated tracking of the syndrome. Some estimates are on the order of 10,000 to 20,000 new cases each year in the United States alone. The incidence is probably increasing as the age of the population increases
Therapy
The goals of therapy are to control symptoms, improve quality of life, improve overall survival, and decrease progression to acute myelogenous leukemia.
The IPSS scoring system can help triage patients for more aggressive treatment (i.e. bone marrow transplant) as well as help determine the best timing of this therapy.[2] Supportive care with blood product support and hematopoeitic growth factors (e.g. erythropoietin) is the mainstay of therapy. Chemotherapy with 5-azacytidine has been shown to decrease blood transfusion requirements and the progression to AML. Lenalidomide is the newest addition in treatment options and was approved by the FDA in December 2005. It has the best activity in patients with the 5q- cytogenetic abnormality, with or without additional abnormalities.
Bone marrow transplant, particularly in younger patients (ie less than 40 years of age), more severely affected patients, offers the potential for curative therapy. Success of bone marrow transplantation has been found to correlate with severity of MDS as determined by the IPSS score.
History
Since the early 20th century it began to be recognized that some people with acute myelogenous leukemia had a preceding period of anemia and abnormal blood cell production. These conditions were lumped with other diseases under the term "refractory anemia". The first description of "preleukemia" as a specific entity was published in 1953 by Block et al. The early identification, characterization and classification of this disorder were problematical, and the syndrome went by many names until the 1976 FAB classification was published and popularized the term MDS.
References
- Bennett JM, Catovsky D, Daniel MT, Flandrin G, Galton DA, Gralnick HR, Sultan C. Proposals for the classification of the myelodysplastic syndromes. Br J Haematol 1982;51:189. PMID 6952920.
- Block M, Jacobson LO, Bethard WF. Preleukemic acute human leukemia. J Am Med Assoc 1953;152:1018-28. PMID 13052490.
- Harris NL, Jaffe ES, Diebold J, Flandrin G, Muller-Hermelink HK, Vardiman J, Lister TA, Bloomfield CD. World Health Organization classification of neoplastic diseases of the hematopoietic and lymphoid tissues: report of the Clinical Advisory Committee meeting-Airlie House, Virginia, November 1997. J Clin Oncol 1999;17:3835-49. PMID 10577857.
- Foucar, K Bone Marrow Pathology, 2nd Edition, ASCP Press. c 2001
- Greenberg, Peter L. (editor) "Myelodysplastic Syndromes: Clinical and Biological Advances" Cambridge University Press, New York 2006 ISBN-13:978-0521496681 ISBN-10:0521496683
Notes
- ↑ Greenberg P, Cox C, LeBeau MM, Fenaux P, Morel P, Sanz G, Sanz M, Vallespi T, Hamblin T, Oscier D, Ohyashiki K, Toyama K, Aul C, Mufti G, Bennett J (1997). "International scoring system for evaluating prognosis in myelodysplastic syndromes". Blood 89 (6): 2079-88. PMID 9058730.
- ↑ Cutler CS, Lee SJ, Greenberg P, Deeg HJ, Perez WS, Anasetti C, Bolwell BJ, Cairo MS, Gale RP, Klein JP, Lazarus HM, Liesveld JL, McCarthy PL, Milone GA, Rizzo JD, Schultz KR, Trigg ME, Keating A, Weisdorf DJ, Antin JH, Horowitz MM (2004). "A decision analysis of allogeneic bone marrow transplantation for the myelodysplastic syndromes: delayed transplantation for low-risk myelodysplasia is associated with improved outcome.". Blood 104 (2): 579-85. PMID 15039286.
External links
- Cancer Medicine. Online textbook. Chapter by Lewis R. Silverman on Myelodysplastic Syndrome.
- Website of the Aplastic Anemia & MDS International Foundation which provides information and support and hope to patients and their families
- Website of MDS-Foundation with a lot of helpful materials
- Myelodysplastic syndromes. Comprehensive article from MayoClinic.com.
- Myelodysplastic syndrome (MDS). article from virtualcancercentre.com.
See also
ar:متلازمة خلل التنسج النقوي de:Myelodysplastisches Syndrom fr:Syndrome myélodysplasique ja:骨髄異形成症候群 sv:Myelodysplastiskt syndrom