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Myelodysplasia

The myelodysplastic syndromes (MDS, formerly known as "preleukemia") are a diverse collection of haematological 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. more...

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Signs and symptoms

Abnormalities include:

  • neutropenia, anemia and thrombocytopenia (low cell counts of white & red blood cells and platelets, respectively)
  • abnormal granules in cells, abnormal nuclear shape and size
  • chromosomal abnormalities, including chromosomal translocations.

Symptoms of myelodysplastic conditions:

  • Anemia - chronic tiredness, shortness of breath, chilled sensation, sometimes chest pain
  • Neutropenia (low white cell count) - increased susceptibility to infection
  • Thrombocytopenia (low platelet count) - increased susceptibility to bleeding

All these conditions have an increased risk of developing acute leukaemia, which is notoriously resistant to treatment ("secondary leukaemia").

Diagnosis

Investigation:

  • Full blood count and examination of blood film
  • Bone marrow aspirate and biopsy with examination by an experience hematopathologist
  • Cytogenetics or chromosomal studies. This is performed on the bone marrow aspirate.

Pathophysiology

MDS is due to genetic defects in the multi-potent blood stem cell of the bone marrow. Most of these are not yet described. Differentiation of the abnormal cells is impaired. Clonal expansion of the abnormal cells lead to production of abnormal cells and decreased production of normal bone marrow products.

Bleeding (due to lack of platelets) or infection (due to lack of white blood cells) is common in the majority of MDS patients. In about 25-35% of patients there is a further genetic mutation in one of the abnormal blood stem cells which eventually results in acute leukemia. 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.

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)

  • (M9980/3) 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;
  • (M9982/3) 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";
  • (M9983/3) Refractory anemia with excess blasts (RAEB) - characterized by 5-19% myeloblasts in the marrow;
  • (M9984/3) 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);
  • (M9945/3) Chronic myelomonocytic leukaemia (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.

Read more at Wikipedia.org


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A 68-Year-Old Man With Thrombocytosis and Ringed Sideroblasts
From Archives of Pathology & Laboratory Medicine, 7/1/04 by Jani, Jigna C

A 68-year-old white man was referred to our institute for evaluation of anemia. The patient was scheduled for hernia repair surgery. On routine blood work, he was found to have anemia and thrombocytosis. He had no complaints except mild intermittent right lower quadrant pain, which was thought to be caused by his hernia. He had experienced mild dizziness when waking up in the morning during the past 1 to 2 months. He reported no loss of consciousness and no falls. He was not taking any medications. His past medical history was significant for a small myocardial infarction 30 years earlier, but he had not had problems since. Family history revealed no history of cancer or any hematologic disorders.

Physical examination demonstrated no lymphadenopathy, no bruises, and no purpura. His liver was palpated 1 cm below the right costal margin. The spleen was not palpable.

Peripheral blood examination demonstrated a hemoglobin level of 9.3 g/dL; red blood cell count, 3.3 × 10^sup 6^/µL; mean corpuscular volume, 84.2 × 10^sup -15^ L; mean corpuscular hemoglobin, 27.9 pg; mean corpuscular hemoglobin concentration, 33.2 g/dL; red cell distribution width, 29.9%,; white blood cell count, 10.3 × 10^sup 3^/µL; and platelets, 988 × 10^sup 3^/µL. Differential count of the peripheral blood showed neutrophils at 51%; monocytes, 4%; and lymphocytes, 41%. There were no circulating blasts. Platelets were markedly increased and occasional giant platelets were seen (Figure 1).

The patient's serum iron level was normal (55 µg/dL), and his total iron binding capacity was slightly decreased (191 µg/dL). He had increased an serum ferritin level (517 ng/mL). His serum folate and serum B12 levels were within normal limits.

Bone marrow biopsy was performed, which revealed a hypercellular marrow with 70% cellularity (Figure 2). The myeloid series showed orderly maturation. The erythroid series showed mild hyperplasia with megaloblastoid changes and mild dyserythropoiesis, as manifest by irregular nuclei and nuclear budding of ervthroid precursors.

There was megakaryocytic hyperplasia with clusters of megakaryocytes consisting predominantly of large, hyperlobulated forms (Figure 3). Rare, small, hypolobulated megakaryocytes were seen. Megakaryocytic emperipolesis and platelet clumps were present.

The differential count demonstrated blasts at 2%; promyelocytes, 4%; myelocytes, 10%; metamyelocytes, 6%; bands, 5%; neutrophils, 15%; erythroid precursors, 32%; monocytes, 3%; lymphocytes, 15%; plasma cells, 2%; basophils, 0%; and eosinophils, 6%. There was mild erythroid hyperplasia with a myeloid-erythroid ratio of 1.6:1.

Iron staining of the bone marrow aspirate revealed increased storage iron. Ring sideroblasts were present (Figure 4) and accounted for approximately 6O0X. of the erythroid precursors.

Cytogenetic analysis of the bone marrow showed normal male karyotype.

What is your diagnosis?

Pathologic Diagnosis: Essential Thrombocythemia With Ringed Sideroblasts

Chronic clonal disorders of hematopoiesis are usually classified as either myeloproliferative disorder or myelodysplastic syndrome. Both groups are clonal hematopoietic stem cell disorders and both are characterized by increased numbers of proliferating cells in the bone marrow.1,2 In myeloproliferative disorders, hematopoiesis is effective, and there is overproduction of end cells of at least 1 hematopoietic lineage.2 In contrast, hematopoiesis is ineffective in myelodysplastic syndrome, which is usually manifest by cytopenia.1

Essential thrombocythemia is a chronic myeloproliferative disorder characterized by sustained thrombocytosis in the blood and increased numbers of large, mature megakaryocytes in the bone marrow.3 Essential thrombocythemia usually is associated with decreased marrow iron and does not show increased ringed sideroblasts.4

The increase in ringed sideroblasts in the bone marrow is consistent with dysplasia. The abnormality of ringed sideroblasts with typical perinuclear, coarsely granulated iron deposits in more than 15% of the erythroid precursors has been recognized as refractory anemia with ringed sideroblasts.1 This disorder is generally considered to be a clonal expansion of abnormal hematopoietic progenitor cells in the context of a myelodysplastic syndrome.

In the current case, the patient had marked thrombocytosis and hypercellular marrow with megakaryocytic proliferation. The megakaryocytes were large. Chromosome analysis demonstrated normal male karyotype. These features support the diagnosis of essential thrombocythemia. However, the bone marrow showed increased sideroblasts (60% of erythroid precursors). Therefore, the case is best characterized as essential thrombocythemia with sideroblastic erythropoiesis. This disorder could also be regarded as refractory anemia with ringed sideroblasts with thrombocytosis.5,6

According to the recently published World Health Organization classification, essential thrombocythemia with ringed sideroblasts remains an ambiguous category, which may be considered as myelodysplastic/myeloproliferative disease, unclassifiable.7 The presence of increased ringed sideroblasts indicates a dysplasia associated with a disturbance of iron metabolism.

Whether essential thrombocythemia with increased ringed sideroblasts is a distinct pathologic entity or the simultaneous occurrence of 2 separate disorders is not yet clear. It is speculated that this disorder represents a stem cell disorder with an abnormal program for cell differentiation, as seen in myelodysplastic syndrome, combined with an up-regulated program for cell proliferation.8,9 However, it is also possible that 2 clones may be present in these patients, with one being myelodysplastic and the other myeloproliferative.9,10 Although the precise mechanisms for the pathogenesis is not clear, it is important to recognize this disorder because dysplastic and proliferative features may both need to be considered when therapeutic choices are made. At this time, the clinically active component of this patient's disease is his clonal thrombocytosis, placing him at risk for thrombotic events. Therefore, he was treated with hydroxyurea to decrease his platelet count to less than 400 × 10^sup 3^/µL for at least 1 month prior to his elective hernia repair.

References

1. Heaney ML, Golde DW. Myelodysplasia. N Engl J Med. 1994;.540:1 649-1660.

2. Tefferi A. The pathogenesis of chronic myeloproliferative diseases. Int J Hematol. 2001;73:170-176.

3. Tefferi A, Murphy S. Current opinion in essential thrombocythemia: pathogenesis, diagnosis, and management. Blood Rev. 2001;15:121-131.

4. Cervantes F, Marti IM, Lopoz-Cuillermo A, et al. Iron stores in essential thrombocythaemia: a study of 26 patients. Blut. 1989;58:291-294.

5. Schmitt-Graeff A, Thiele J, Zuk I, Kvasnicka HM. Essential thrombocythemia with ringed sideroblasts: a heterogenous spectrum of diseases, but not a distinct entity. Haematologica. 2002;87:392-399.

6. Gupta R, Abdalla SH, Bain BJ. Thrombocytosis with sideroblastic erythropoiesis: a mixed myeloproliferative myelodysplastic syndrome. Leuk Lymphoma. 1999:34:615-619.

7. Bain B, Vardiman JW, Imbert M, et al. Myelodysplastic/myeloproliferative disease, unclassifiable. In: Jaffe ES, Harris NL, Stein H, Vardiman |W, eds. Pathology and Genetics of Tumours of Hematopoietic and Lymphoid Tissue. Lyon, France: IARC Press; 2001:58-59. World Health Organization Classification of Tumours', vol 5.

8. Koike T, Uesugi Y, Toba K, et al. 5q-Syndrome presenting as essential thrombocythemia: myelodysplastic syndrome or chronic myeloproliferative disorders? Leukemia. 1995;9:517-518.

9. Ohyashiki K, Yokoyama K, Kimura Y, et al. Myelodysplastic syndrome evolving into a myeloproliferative disorder: one disease or two? Leukemia. 1993;7:338-340.

10. Verhoef GEG, Demuynck H, Zachee P, Boogaerts MA. Myelodysplastic syndrome evolving into a myeloproliferative disorder: one disease or two? Leukemia. 1994;8:714-715.

Jigna C. Jani, MD; Sujata Gaitonde, MD; Yogen Saunthararajah, MD; Hongyu Ni, MD

Accepted for publication February 26, 2004.

From the Department of Pathology (Drs Jani, Caitonde, and Ni) and Hematology/Oncology (Dr Saunthararajah), University of Illinois, Chicago.

The authors have no relevant financial interest in the products or companies described in this article.

Corresponding author: ligna C. Jani, MD, Department of Pathology, University of Illinois, 446 CMW MC 847, 1819 W Polk St, Chicago, IL 60612 (e-mail: jjani@uic.edu).

Reprints not available from the authors.

Copyright College of American Pathologists Jul 2004
Provided by ProQuest Information and Learning Company. All rights Reserved

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