Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023473 (chronic myeloid leukemia)
 18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Results of chromosome studies of blood and bone marrow cells from 101 patients with Ph1 positive chronic myeloid leukemia (CML) confirm the assumptions that clinical and morphologic manifestations of the disease correlate with karyotype peculiarities of leukemia cells. Several variants of the clinical course of CML may be distinguished. One is the variant with a short chronic phase and a comparatively long terminal phase. In blastic crisis the blast cells are peroxidase negative and do not possess cytoplasmic inclusions. Acute transformation occurs without any additional chromosome damage. The second, more common form is less severe because of longer chronic phase but it has a short and grave acute stage. The blast cells present definite signs of myeloid differentiation, they have basophilic or neutrophilic cytoplasmic granules and are peroxidase positive. Marker i(17q) often combined with trisomy 8 is a characteristic chromosome abnormality in the terminal stage of this variant. The third type has an extremely long chronic phase but ends in a rapidly progressing severe and resistant to therapy "lymphoid" blastic crisis. Blast cells have typical "lymphoid" morphology, they are peroxidase negative and contain granular PAS positive substance. Various additional chromosome changes appear in the terminal stage. Future studies of a larger series of patients may possibly reveal more CML variants.
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PMID:Correlations between the clinical course, characteristics of blast cells, and karyotype patterns in chronic myeloid leukemia. 694 65

Interest in the DNA-synthetic enzyme terminal deoxynucleotidyl transferase (TdT) has developed from two sets of observations: first, in normal animals, it occurs only in immature thymic lymphocytes and in a subpopulation of bone marrow lymphocytes; second, it is present in the blast cells of almost all patients with acute lymphoblastic leukemia. A prospective trial to evaluate blast cell TdT as a predictor of responsiveness to vincristine and prednisone in 30 Philadelphia chromosome-positive patients with blastic chronic myelogenous leukemia was undertaken. Eleven of 16 TdT-positive patients responded, whereas only one of 14 TdT-negative patients showed improvement. Among TdT-positive patients under the age of 50 years, the response rate was 78%. Enzyme-negative patients under the age of 50 had an 11% response rate. Blast cell morphology (i.e., lymphoblastic versus myeloblastic) had no significant correlation with either responsiveness or TdT activity. These results suggest that blast cell TdT activity may identify leukemic patients who are likely to respond to vincristine and prednisone irrespective of their conventional classification.
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PMID:Clinical utility of leukemia cell terminal transferase measurements. 702 51

While immunotyping blast cells from 45 patients with CML blast crisis, we detected 5 cases with immunologically primitive blast cells. The immunological phenotype of these cells corresponded to that of primitive stem cells which are characterized by expression of CD34 and HLA-DR antigens in the absence of other immunological markers. We suggest that blast cells from these patients may undergo differentiation similar to that of primitive stem cells that implies the existence of a new immunological variant of CML blast crisis, a primitive variant. Morphologically, blast cells in 3 cases could be classified as myeloid, in 2 cases precise identification was impossible. Cytochemically, this type of cells can be defined as mixed. The patients with CD34+ phenotype do not differ clinically or hematologically from those with CML blast crisis. Blast cells with membrane marker CD34 are likely to arise in any CML phase either as a component of overall leukemic population or predominant, single subclone.
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PMID:[A "primitive" variant of the blast crisis in chronic myeloleukemia]. 748 98

The wt1 gene is located on chromosome 11p13 and encodes a zinc finger motif-containing transcription factor involved in regulation of growth and differentiation. Its expression was shown during embryonic development in various tissues as well as in a few human malignancies including acute leukemias. Using RT-PCR, we found wt1 gene expression in blast cells of the majority of 150 acute leukemia patients. Particularly, the wt1 transcript was detected in 12 of 14 (86%) pre-pre-B-ALL patients, in 33 of 41 (80%) cALL patients, in 23 of 31 (74%) T-ALL patients, and in 53 of 57 (93%) AML patients. Additionally, mononuclear cells from CML patients expressed the wt1 gene only when diagnosed with blast crisis. In contrast to acute human leukemias, mononuclear cells from reactive bone marrow (n = 4), and peripheral blood of healthy volunteers (n = 20), as well as normal peripheral CD34+ hematopoietic progenitors (n = 6) did not express the wt1 gene at detectable levels. Using the anti-WT1 MoAb 6F-H2 in an immunofluorescence assay on single cell level, we found the translated WT1 protein only in nuclei of leukemia blast cells but not in nuclei of normal CD34+ hematopoietic progenitor cells. Blast cells of 12 of 20 leukemia patients (60%) all tested positive for the wt1 gene expression by RT-PCR displayed a strong nuclear immunofluorescence. Its expression in the majority of human acute leukemias but not in normal mononuclear blood cells and normal CD34+ hematopoietic progenitors qualifies the wt1 gene transcript as a 'pan-acute leukemic' marker probably useful in monitoring minimal residual disease after chemotherapy and in detecting leukemic blast cells in purged or unpurged hematopoietic stem cell preparations intended to be used for autologous bone marrow transplantation.
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PMID:Presence of Wilms' tumor gene (wt1) transcripts and the WT1 nuclear protein in the majority of human acute leukemias. 759 70

Blast-phase chronic myelogenous leukemia (CML) is the terminal phase in CML and is uniformly fatal. We treated 12 patients with blast-phase CML with a program of high-dose cytarabine 3.0 g/m2 and melphalan 140 mg/m2, followed by reinfusion of stem cells obtained from peripheral blood during the chronic phase. Seven patients achieved either a partial or complete hematologic remission, while five patients showed no response to therapy. One patient returned to chronic phase features with loss of a chromosomal abnormality acquired at blast phase, restoration of hematopoiesis, and a decrease in the amount of bone marrow blasts to less than 10%. Six patients cleared their peripheral blasts and showed recovery of their myeloid and platelet lineages, but all six required treatment for acceleration within 3 months. Of the five nonresponding patients, three died with aplastic bone marrow, one patient never cleared peripheral blasts after chemotherapy, and one patient had evidence of peripheral blasts 3 weeks after the autologous stem cell reinfusion. None of the patients returned to a normal karyotype. The ablative regimen was effective in eradicating bone marrow blasts to < 10% in 8 of 10 patients in whom interpretable bone marrow samples were performed following chemotherapy. Overall, the median survival for all patients from the time of stem cell reinfusion was 5.5 months. We conclude that autotransplants with peripheral blood can successfully be used to support hematopoiesis during high-dose therapy for CML blast crisis, however, has no role by itself in the curative therapy of blast crisis CML. A small number of patients can be restored to chronic phase features, and this may provide an opportunity to administer subsequent alternative treatments designed to eradicate the malignant stem cell population. Autotransplants with stem cells may also be used as therapy for patients without a histocompatible marrow donor. However, the autotransplant may be more effective when used during the chronic phase of CML, with the use of hematopoietic growth factors, and with reinfusion of stem cells depleted of the malignant Philadelphia chromosome-positive clone.
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PMID:Autologous peripheral stem cell transplantation of the blastic phase of chronic myeloid leukemia following sequential high-dose cytosine arabinoside and melphalan. 790 81

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

Blast cells from 40 patients with Philadelphia-positive chronic myeloid leukaemia (CML) in blast crisis were analysed by immunophenotypic methods. In 27 cases, BCR gene studies were also performed. By light microscopy morphology and cytochemistry the cases were classified as follows: undifferentiated (n = 7; 17.5%), myeloid (n = 27; 67.5%), and lymphoid (n = 6; 15%). On the basis of the immunological markers, the cases were reclassified as: myeloid (n = 17; 42.5%), megakaryoblastic (n = 17; 42.5%), and lymphoid (n = 6; 15%). The seven cases initially considered as undifferentiated by morphological and conventional cytochemical criteria were classified as myeloid (four cases) and megakaryoblastic (three cases) by marker analysis. The monoclonal antibody anti-myeloperoxidase (anti-MPO) was the most sensitive myeloid associated marker in these cases, being positive in five of them. A significant proportion (27%) of non-lymphoid blast crisis cases were CD7-positive, and myeloid markers were positive in the four lymphoid CML-CB cases studied. Analysis of the clinico-haematological characteristics on the various subgroups of patients showed that patients with lymphoid blast crisis had shorter duration of the chronic phase, more frequent extramedullary blastic involvement, more favourable response to therapy, and longer survival. Finally, a trend for an association between megakaryoblastic involvement of blast crisis and breakpoint localization in the 3' extreme of the M-bcr segment was also noted.
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PMID:Immunophenotypic characteristics of blast crisis of chronic myeloid leukaemia: correlations with clinico-biological features and survival. 837 86

The correlation between pCO2 values in blood and in exhaust gas from the oxygenators was examined during cardiopulmonary bypass (CPB) using one bubble oxygenator and three membrane oxygenators. Forty-seven CPBs were performed, 17 with Compactflow (Dideco, Italy), 10 with Maxima (Medtronic Inc., USA), 10 with Cobe CML (Cobe Laboratories, USA) membrane oxygenators and 10 with Hi-Flex (Dideco, Italy) bubble oxygenators. Blood samples were taken both from arterial and venous lines of the oxygenator. A capnometer was connected to the oxygenator gas exhaust port and CO2 fraction was measured at the time of drawing blood samples. CO2 pressure in the gas phase was calculated from the product of the CO2 fraction and water vapour-corrected barometric pressure. Blood gases were measured at 37 degrees C and the pCO2 value was corrected to the temperature of the arterial line. The correlation between blood and exhaust gas pCO2 was good in all the oxygenators examined, ranging from 0.921 to 0.976. The standard error of estimate (SEE) was in the range of about +/- 2 mmHg for all the oxygenators. The systematic error (slope and intercept of the correlation line) varied depending on the construction of the oxygenator, with countercurrent design having the best overall correspondence. Based on the results of this study it can be concluded that arterial or venous CO2 pressure can be monitored with a capnometry device coupled to the oxygenator gas outlet port.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Monitoring of CO2 exchange during cardiopulmonary bypass: the effect of oxygenator design on the applicability of capnometry. 1017 88

A 54-year-old female, who had been treated for 4 years in the chronic phase of chronic myelogenous leukemia (CML) was admitted for management of a CML blastic crisis. Blast cells showed strong positive expression of CD7 and HLA-DR, and weakly expressed CD2, CD5 and CD10, as well. The cells were peroxidase negative in peripheral blood and bone marrow. An undifferentiated blastic crisis was diagnosed and she was treated with Interferon-alpha and VP(vincristine 2 mg/week; prednisolone 30 mg/day). A 5-7 mm in diameter tumor in the skin of the anterior right chest appeared one week after VP therapy. The tumor consisted of blasts which were CD13, CD33 and peroxidase positive, unlike the peripheral undifferentiated blasts. This is a rare case of mixed blast crisis with an increase in undifferentiated blasts in peripheral blood and bone marrow, and myeloblastic tumor formation in the skin.
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PMID:[Undifferentiated blastic cell crisis of chronic myelogenous leukemia with myeloblastic tumor in the skin]. 1084 65

Purified preparations of circulating leukaemic blast cells from patients with acute myeloid (M1-7) or acute lymphoblastic leukaemia, and the myeloid or lymphoid cells from patients with chronic myeloid or lymphocytic forms of leukaemia, were incorporated into clots prepared from fibrinogen and plasminogen. Patterns of lysis were followed and measured by light transmission in a microtitre plate reader. Mature polymorphonuclear and mononuclear cell fractions from normal individuals were studied concurrently for comparison. Blast cells from the myeloid forms of acute leukaemia (M2-4) and 'myeloid' cell fractions from patients with chronic myeloid leukaemia were capable of lysing plasminogen-containing clots; this activity was neutralized by addition of immunoglobulin against urokinase plasminogen activator (u-PA), but not by anti-tissue plasmogen activator (t-PA). Mature polymorphonuclear and mononuclear cells from normal individuals lacked lytic activity, as did the leukaemic cells from patients with acute lymphoblastic or chronic lymphocytic leukaemia. Lysed blast cells showed the presence of free plasminogen activator on sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE) with overlay zymography, also neutralized by anti-u-PA, whereas normal polymorphonuclear and mononuclear cells did not. These observations suggest that mechanisms underlying some forms of severe bleeding in acute myeloid leukaemias have a critical fibrinolytic component generated by the blast cells themselves.
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PMID:Myeloid leukaemic cells can lyse fibrin directly. 1112 94


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