Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026986 (myelodysplastic syndrome)
 14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is general agreement that apoptosis (programmed/physiological cell death) plays an important role in regulating normal hematopoiesis and that so-called naked nuclei (NN) present end stages of megakaryopoiesis. Using in situ end-labeling techniques (ISEL), a morphometric analysis was performed on bone marrow trephine biopsies repeatedly derived from patients with idiopathic (primary) osteo-/myelofibrosis (IMF). The purpose of this study was to quantify apoptosis and to elucidate its relationship with NN of megakaryopoiesis. Moreover, evolution of this phenomenon during progression of myelofibrosis (assessed by morphometry of silver-stained sequential biopsies) and its predictive value were investigated. In IMF, morphometric measurements revealed a rate of ISEL-positive cells that was significantly higher than previously published data on the normal bone marrow and in patients with acute myeloblastic leukemia, but lower than in the myelodysplastic syndromes. However, NN with their tightly packed (nuclear) lobules and condensed chromatin were not reactive. Statistical evaluation failed to show a significant correlation between incidence of apoptotic cells and fiber density or an increase in this feature associated with progression of fibro-osteosclerotic marrow changes and prognosis. The failure of NN to react in ISEL implicates an absence of DNA fragmentation characteristic of apoptosis. For this reason our findings are in keeping with the assumption that NN are compatible with para-apoptosis.
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PMID:Apoptosis (programmed cell death) in idiopathic (primary) osteo-/myelofibrosis: naked nuclei in megakaryopoiesis reveal features of para-apoptosis. 906 8

In order to determine the relationship between bone marrow (bm) endosteal cells (EDC) and hemopoietic progenitors, we have analyzed the immunophenotype of EDC using various antibodies (Ab) against mesenchymal antigens. The Ab were applied on paraffin sections of normal bm (iliac crest, n=17; talus, n=1; phalanx, n=1), myeloregenerative bm (after chemotherapy), and hematologic disorders (acute myeloid leukemia (AML), n=8; chronic myeloid leukemia (CML), n=6; myelodysplastic syndromes (MDS), n=14; severe aplastic anemia (SAA), n=4; essential thrombocythemia (ET), n=2; idiopathic (primary) osteomyelo-fibrosis (IMF), n=1; polycythemia vera (PV), n=1). In normal bm, EDC were found to react with Ab against vimentin, tenascin, alpha-smooth muscle actin, osteocalcin, CD51, and CD56, but did not react with Ab against CD3, CD15, CD20, CD34, CD45, CD68, or CD117. An identical phenotype of EDC was found in AML, MDS, SAA, ET, IMF, PV, myeloregenerative bm, and peripheral bones lacking active hemopoiesis (talus, phalanx). In patients with CML, EDC reacted with Ab to CD51, but did not react with Ab to CD56. Based on their unique antigen profile, EDC were enriched from normal bm by enzyme digestion and cell sorting. However, these enriched cells (CD56+, CD45-, CD34-) did not give rise to hemopoietic cells under the culture conditions used, i.e. in the presence of the growth factors IGF-1, bFGF, SCF, IL-3, and GM-CSF Together, our data do not support the hypothesis that EDC are totipotent mesenchymal progenitors giving rise to hemopoietic cells.
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PMID:Immunophenotypic characterization of human bone marrow endosteal cells. 1039 6

Differentiation of an elevated, repeatedly determined platelet count (> or =500x10(9)/l) includes the discrimination between reactive causes generated by a variety of underlying conditions and a neoplastic myeloproliferative disorder (CMPD). In addition to clinical findings, the evolution of laboratory data during follow-up and histology of the bone marrow exerts a significant diagnostic impact. Characteristic features are not only expressed by hematopoiesis, but also by the myeloid stromal compartment. While the megakaryocyte-rich subtype of chronic myeloid leukemia (CML) and the 5q(-) syndrome (MDS) are dominated by abnormal micromegakaryocytes, in polycythemia vera (PV) this cell lineage reveals a pleomorphous appearance. In essential thrombocythemia (ET), a prevalence of giant megakaryocytes with deeply lobulated (staghorn-like) nuclei may be encountered. A clear-cut discrimination of ET from early (hypercellular) stages of idiopathic (primary) myelofibrosis (IMF) presenting with thrombocythemia becomes possible, provided the conspicuous atypical features of megakaryopoiesis characterizing the latter entity are taken into account. Moreover, CML displays a predominance of the granulocytic lineage whereas PV shows a panmyelosis or trilineage proliferation, involving erythropoiesis, in particular. In contrast, erythropoiesis is markedly reduced in CML and to a lesser degree also in IMF. In CMPDs extreme values of iron deposits may be found, ranging from a total lack (PV) to minor amounts (CML) and a normal staining reaction (ET). Similar results are exhibited regarding reticulin fibrosis, which is usually not present in ET, rarely observed in PV and detectable to a variable degree in CML and IMF.
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PMID:[Thrombocytosis versus thrombocythemia--differential diagnosis of elevated platelet count]. 1066 67

A set of clinical and pathological criteria for the diagnosis and staging of Philadelphia chromosome-negative myeloproliferative disorders (Ph(1-)-MPDs) is presented by including bone marrow histopathology as a significant tool to identify the early, manifest, and advanced stages of essential thrombocythemia (ET), polycythemia vera (PV), and idiopathic myelofibrosis/agnogenic myeloid metaplasia (IMF/AMM). This combined approach provides a pathognomonic clue to each of the different subtypes of Ph(1-)-MPDs and further enables recognition of the various steps in the evolution of the myeloproliferative process Increase and clustering of giant to large megakaryocytes with mature cytoplasm and multilobulated staghorn-like nuclei in a normal or only slightly increased cellular bone marrow represent major hallmarks of ET. Loose assemblies of small to giant pleiomorphic megakaryocytes containing deeply lobulated nuclei together with a proliferation of erythro- and granulopoiesis (panmyelosis) are the specific lesions of PV. The initial prefibrotic and the overt and more advanced myelofibrotic stages of IMF/AMM show a pronounced proliferation of an abnormal megakaryo- and granulopoiesis dominated by clustered atypical medium-sized to giant megakaryocytes with cloud-like, bulbous, and often hyperchromatic nuclei, which are not seen in allied subtypes of MPDs including chronic myeloid leukemia (Ph(1+)-CML) and myelodysplastic syndromes (MDS). The presented clinical and pathological criteria modify the Polycythemia Vera Study Group (PVSG) proposals for the Ph(1-)-MPDs by including bone marrow histopathology and are in keeping with features outlined in the new World Health Organization classification. The latter allows the differentiation of true ET from reactive thrombocytosis and from thrombocythemias as an eventually presenting finding in PV, IMF/AMM, MDS, and Ph(1+)-CML. Moreover, these diagnostic guidelines are able to separate latent and early PV from secondary erythrocytosis and to detect the prefibrotic and early stages of IMF/AMM. Myelofibrosis is not a feature of ET and is rarely observed in PV at time of diagnosis, but it becomes apparent during long-term follow-up and constitutes a prominent lesion during the course of IMF/ AMM. Life expectancy is almost normal in ET and is also not significantly altered during the first, but compromised during the second, decade of follow-up in PV. On the other hand, survival is substantially shortened in IMF/AMM, even for patients with thrombocythemia as a frequent finding of prefibrotic and early stage IMF/AMM.
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PMID:Clinical and pathological criteria for the diagnosis of essential thrombocythemia, polycythemia vera, and idiopathic myelofibrosis (agnogenic myeloid metaplasia). 1221 11