Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: KEGG:D03343 (MDS)
 2,225 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Owing to recent technical developments in automated hematology analyzers, identification of 5-part differential counts in white blood cells and also of abnormal leukocytes has become possible. Blood specimens from 200 patients with leukemic hematologic conditions were processed through a Coulter STKS which gives a favorable white cell differential count utilizing the following parameters: volumetric impedance (V), electric conductivity/cell volume (C), and a monochromatic laser beam which provides collectively white cell scatterplot (S). To analyze the presented figures of a pathologic scatterplot (SP) on the visual display unit, the standard scale derived from 220 normal SP patterns which was composed of four kinds of cell SP scales (neutrophil: N, monocyte: Mo, eosinophil: Eo, lymphocyte: Ly) was applied. Leukemic SP figures were variable depending upon both the type of FAB classification and their therapeutic processes. SP forms of M0-blasts were semi-round and located in the central area surrounded by N-, Mo-, and Ly-SP scale. Blast SP of M1 and M2 was shown as a developing process to the SP field containing immature myeloid cells extending from the central area. It was reasonable that immature neutrophilic SP expression was obtained in M3 and Ph1 positive CML. However, the SP of M3v and Ph1 negative CML showed myelomonocytic features as CMMoL does. Typical myelomonocytic SP patterns were obtained in M4 patients. SP figures of MDS were characterized by deformability, dislocation and another abnormality, and these changes, especially in lymphocytes are very useful for diagnosis of MDS. Therefore, the FAB subtype of AML including MDS and CML could be distinguished from each other on the basis of SP pattern. In lymphoproliferative disorders, limited conductivity in ALL-SP was characteristic, while irregular and deformed SP was peculiar in leukemic malignant lymphoma. It would be a valuable process to analyze the SP pattern obtained from an automated hematology analyzer for identification of leukemic diseases.
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PMID:[Hematological analysis of leukemic diseases using an automated hematology analyzer]. 829 37

The present study, based upon the retrospective evaluation of 352 patients with primary myelodysplastic syndrome (pMDS), revealed hypoplastic MDS in 42 patients (11.9%). Median age is similar in hypo- and normo-/hypercellular MDS (72.6 versus 70.7 versus 72.4 years). Hypoplastic MDS occurred significantly more often in women compared with normo- and hypercellular MDS. Sequential biopsies were performed in 14 patients, showing a persistence of hypoplasia over a period of up to 43 months. The proportion of patients showing mesenchymal reaction, especially an increase of mast cells, was significantly higher in hypoplastic MDS, whereas dysplastic features of hematopoiesis occurred less frequently and were of lower grade in comparison to normo-/hyperplastic MDS. Among the subgroup with hypoplastic bone marrow, the classification according to FAB criteria revealed 28 patients with RA (66.7%), three with RARS (7.1%), and eight with RAEB (19.0%), as well as one patient each with RAEB-T and CMMol (2.4% each), and one case which had to be reckoned among the category of unclassifiable MDS (2.4%). Median survival was 21.8 months for hypoplastic MDS, 26.9 months for normoplastic MDS, and 14.2 months for hyperplastic MDS. During follow-up, 14 patients (33%) with hypoplastic MDS developed acute nonlymphatic leukemia. Although not a constant finding, karyotype abnormalities involving particularly chromosome 7 seem to be associated with hypoplastic MDS. The results confirm the existence of a hypoplastic variant of MDS which seems to more frequently affect female patients, and which requires bone marrow biopsy for its accurate diagnosis.
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PMID:Hypoplastic myelodysplastic syndrome: incidence, morphology, cytogenetics, and prognosis. 847 56

To determine whether hypocellular MDS differs from normo/hypercellular MDS, we attempted to identify hypocellular MDS cases either by correcting the bone marrow (BM) cellularity by age (28 patients) or by using a single arbitrary value of BM cellularity (25 patients) and compared these two groups of hypocellular cases to the normo/hypercellular MDS cases (72 patients). 18 patients were common to both hypocellular groups. Patients with hypocellular MDS in both of these selected groups have similar features with regard to age and sex distribution, peripheral blood and bone marrow parameters, FAB subtypes, karyotypes, leukaemic transformation, and survival. However, the median age of patients in < 30% BM cellularity group was higher than those patients in the age-corrected group (69 years v 62 years). The selection of < 30% cellularity excluded 10 cases in the age group < 70 years but included another seven patients in the age group of > 70 years. However, correction of BM cellularity by age revealed that those included patients (selected for < 30% cellularity) who had normocellular BM by their age. Therefore we recommend the age-correcting grouping to ensure comparable series for comparison, for response to treatment, and survival. Finally, BM cellularity does not appear to be an important factor on prognosis in MDS, because patients with hypocellular MDS in both selected groups have similar prognosis to those with normo/hypercellular MDS patients.
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PMID:Hypocellular myelodysplastic syndromes (MDS): new proposals. 879 Jan 65

The use of recombinant erythropoietin for treatment of anemia in myelodysplastic patients has so far produced poorer results than expected. Most clinical studies have been conducted without any selection of patients. In the present study we report our experience with the use of rhEPO in a population of selected MDS subjects. Only patients affected by refractory anemia according to FAB criteria, without significant WBC and platelets reduction, with normal LDH and short history of disease were eligible for the study and were treated with rhEPO at a dosage of 150 mg/kg three times a week for 2 months. Among the 12 so treated patients, 7 (58.3%) achieved complete remission, 2 partial remission and 3 failed to respond. This high response rate makes more than acceptable the cost/benefit ratio for rhEPO in RA patients and may identify a subgroup of patients that can be treated successfully with rhEPO alone.
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PMID:A good response rate to recombinant erythropoietin alone may be expected in selected myelodysplastic patients. A preliminary clinical study. 859 97

The aim of the present study was to increase our knowledge of myelopoiesis evaluated by flow cytometry. We therefore designed a triple-marker assay employing monoclonal antibodies against the CD13 (immature), the CD14 (monocytic), and the CD66 (mature myeloid) antigens using three-colour immunofluorescence. In normal donor bone marrow the assay enables simultaneous identification of immature (CD13+, CD14-, CD66-), intermediate (CD13+, myelopoietic differentiation stages through the exclusion of CD14+ monocytic cells. In the diagnosis and longitudinal follow-up of AML patients the assay was of value in the fast determination of remission state. In MDS, the immature myeloid component could be distinguished in patients defined according to the FAB classification with the possibility of identifying aberrant phenotypes, the assay should also be of interest in other myeloproliferative disorders. Moreover, because it is easy to perform, time-saving, and yields comparable results to single antibody reactivity controls, it can replace more tedious and less-informative flow cytometric immunophenotyping procedures.
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PMID:Improved flow cytometric identification of myelopoiesis by the simultaneous labelling with CD13, CD14 and CD66 monoclonal antibodies. 860 85

The prognostic impact of bone marrow biopsy (BMB) histology and CD34 immunoreactivity was compared with that of the more conventional parameters (the FAB diagnosis, peripheral blood values, percentage of BM blasts and some common prognostic scores) in 100 MDS patients. Statistical correlations among the cytological, haematological, histological and immunohistochemical parameters and their relationship with clinical outcome were searched for. At univariate analysis, FAB classification (P < 0.001), pattern of blastic infiltration at BMB (P < 0.005), presence of CD34+ aggregates (P < 0.0005), percentage of blasts in BM aspirate (P < 0.0001) and percentage of CD34 positivity (P < 0.0001) proved to be linked to leukaemic transformation and, except for FAB classification, retained a high degree of prognostic significance in terms of survival. Leukaemic transformation occurred in 16/18 patients simultaneously presenting 'large' blastic infiltrates at BMB and CD34+ aggregates (P < 0.00001); 9/17 evaluable patients died within 12 months of diagnosis (P < 0.001)> Discriminant functions for leukaemic transformation and survival did not offer any advantage over univariate analysis in the prognostic work-up. The results indicate that the size of blastic aggregates and CD34 positivity allowed patients with a worse prognosis to be identified irrespective of their FAB subtype, but the prognostic impact is considerably greater when both parameters are simultaneously taken into account, as testified by the restricted and homogeneous subgroup of patients with both 'large' and CD34-positive aggregates.
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PMID:Bone marrow histology and CD34 immunostaining in the prognostic evaluation of primary myelodysplastic syndromes. 860

The FAB group has recently published guidelines for distinguishing chronic granulocytic leukaemia (CGL) from chronic myelomonocytic leukaemia (CMML) and atypical chronic myeloid leukaemia (aCML). Whereas CGL is generally recognized to be a distinct entity, there is debate as to whether CMML and aCML are separate disorders or part of a spectrum of myeloproliferative disorders with dysplastic features. Data are presented on 10 cases who developed features of a CML during the course of their disease but who presented with a normal or a low leucocyte count without a monocytosis and were diagnosed as refractory anaemia. This suggests that, at least in some cases, aCML represents an unusual evolution of MDS, and even though these patients have a uniformly poor prognosis it may be premature to regard aCML as a distinct clinical entity.
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PMID:Atypical chronic myeloid leukaemia, a distinct clinical entity related to the myelodysplastic syndrome? 861 21

FAB proposals for the diagnosis of AML-M0 represent the formal recognition of a distinct entity which has been described over the past few years by several authors and called minimally differentiated acute myeloid leukemia. By definition, AML-M0 includes acute leukemias which do not fit morphological and cytochemical criteria for the diagnosis of AML, and for which myeloid lineage assignment can be made by immunological assay showing positivity for MPO, CD13, and CD33 and negativity for lymphoid markers. Involvement of an early myeloid progenitor in the leukemic process is a possible theory hypothesized to explain the existence of such a form. Validity of this assumption has been based on the observation that AML-M0 frequently bears "stem cell" markers such as CD34, HLA-DR, Tdt, CD7, and promiscuous IgH/TCR gene rearrangements, which are thought to occur in uncommitted cells. Finally, AML-M0 very frequently carries cytogenetic abnormalities common to MDS or secondary AML, such as -5/5q- or -7/7q- deletions and or complex karyotype. In our experience, AML-M0 is also very often associated with the MDR phenotype, which in turn has been found strictly linked to "stem cell" features, especially in MDS. These biological aspects, altogether, translate into a very unfavorable prognosis, confirming even from a clinical point of view that AML-M0 is a distinct entity. In conclusion, "stem cell" markers, MDR phenotype, complex chromosome lesions, frequent occurrence in elderly patients, and intrinsic chemoresistance characterize AML-M0 and indicate the need for tailored treatments, possibly involving the use of MDR modulators and/or differentiating agents.
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PMID:Minimally differentiated acute myeloid leukemia (AML-M0): a distinct clinico-biologic entity with poor prognosis. 862 74

Immunophenotyping improves both accuracy and reproducibility of the FAB classification and is considered particularly useful for identifying poorly differentiated FAB subtypes of AML, such as AML with minimal differentiation (M0), microgranular promyelocytic leukaemia (M3V), and megakaryoblastic leukaemia (M7). Immunological studies of myeloid leukaemic blasts has become critical also in identifying biphenotypic leukaemias and AML expressing lymphoid-associated markers (Ly+ AML). At present, while the prognostic value of individual antigen expressions is still controversial, due to technical questions, the immunological detection of MRD seems to be important in monitoring AML patients in remission and, perhaps, in detecting leukaemic cell contamination into bone marrow or peripheral blood progenitor cells collected for autologous transplantation. In addition, the relationship established between genetic abnormalities and certain phenotypes within different FAB subtypes suggests that, in the future, immunophenotypical studies could be used for the screening of AML cases carrying specific genetic aberrations. Compared to acute leukaemias, little information is available concerning immunological patterns in MDS, and the role of the immunophenotype in diagnosis, subclassification, and prognosis of MDS is currently not well established.
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PMID:Immunophenotyping of AML and MDS and detection of residual disease. 873 May 50

Evaluating the proliferative activity of the immature erythro- and myelopoiesis as well as the mature myelopoiesis in 21 MDS patients and 14 healthy controls by simultaneously staining bone marrow cells for surface phenotype and DNA content, we found the percentages of proliferating S-phase cells in the early stage of MDS were higher. With disease progression evaluated by the FAB classification this parameter decreased significantly for both the immature myelo- and erythropoiesis. Evaluation of the proliferative activity of the mature myelopoiesis defined by the CD66 antigen revealed no difference between the normal controls and the MDS patients. Using another assay simultaneously labelling bone marrow cells for three leucocyte differentiation antigens during treatment with GM-CSF and low-dose AraC the cells clearly differentiated in one case. In another patient the disease seemed to progress as evaluated by cells only expressing immature antigens. The above mentioned immunophenotypic changes persisted at least one month after termination of treatment. In conclusion, the evaluation of proliferation and differentiation of leucocyte subsets using multiparameter flowcytometric assays in myelodysplastic patients from different FAB groups before as well as during treatment with haemopoietic growth factors may prove valuable in the future.
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PMID:Myelopoiesis in myelodysplasia evaluated by multiparameter flow cytometry. 875 Jun 19


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