UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Despite the incomparability in the reporting of leukemia and lymphoma incidence among populations and the relative rarity of these diseases, real differences in rates are discernible from available data. In general, the incidence of each of the leukemias and lymphomas is lower in Japan than in other Pacific rim populations whose rates are known. Particularly striking is the low incidence of CLL in Japan. Among Japanese in Hawaii, rates of some of these cancers (lymphosarcoma, CML) approach those of whites, whereas rates of other cancers (Hodgkin's disease, multiple myeloma, ALL, CLL, and AML) more closely resemble those of native Japanese. The number of Chinese living in countries served by population-based cancer reporting systems is too small for any firm conclusions to be made about leukemia and lymphoma incidence in this group. The incidence of these diseases in certain other nonwhite Pacific rim residents (i.e., Mexican Americans, blacks, and Maoris) is, by and large, similar to that of whites.
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PMID:Geographical variation in the incidence of the leukemias and lymphomas. 29 90

The membrane phenotype of leukaemic cells was analysed during different stages of chronic myeloid leukaemia by a panel of markers. These included antisera against ALL antigen, p23,30 (Ia-like structure) and other T cell, B cell and myeloid markers 'Lymphoid' blast crisis shares the phenotype of common ALL (of non-T, non-B variety). Both leukemias react with anti-ALL serum and have pre-myeloid, pre-B lymphoid and pre-thymocyte characteristics. Their phenotype may reflect the characteristics of the pluripotential stem cell from which they derive. Nevertheless both leukaemias retain their undifferentiated characteristics and lack overt myeloid, B cell and thymocyte differentiation markers. Myeloid blast crisis and AML are negative with anti-ALL serum but some of the poorly differentiated myeloblasts react with anti-p23,30 serum (and negative for SmIg). The anti-p23,30 serum (used in a double marker assay combined with anti-immunoglobulin) detects some (4-11%) intermediate sized agranular p23,30+/SmIg-cells in peripheral blood during the chronic phase of CML as well as in normal foetal bone marrow. These could be myeloid stem cells (from which in CML the myeloid blast crisis arises). The results demonstrate that surface membrane analysis can aid exact diagnosis in different stages of CML.
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PMID:Membrane marker analysis of 'lymphoid' and myeloid blast crisis in PH1 positive (chronic myeloid) leukemia. 30 6

Of particular interest in the study of cell membrane markers of leukemic cells were cytotoxic and immunofluorescent results obtained in comparing Ia alloantigen and complement receptor (CR) expression on normal leukocytic and leukemic cell types. Using discontinuous Ficoll gradients, Ia alloantigens were found on varying numbers of leukemic myelo- and lymphoblasts, and on the early stages of normal melocytes. Ia alloantigens, however, were not detectable on mature polymorphonuclear cells. This establishes human Ia alloantigens as cell surface differentiation markers. The appearance of complement receptors was observed later than that of Ia alloantigens. CR1 (EAC1-4b) showed up later in the differentiation than CR2 (EAC1-3d). Thus, an immunological discrimination between AML blasts and CML blast crisis blasts appears to be possible: AML blasts are mostly Ia-positive but CR-negative, whilst CML blast crisis cells are only 20-30% Ia-positive and carry complement receptors in at least equal amounts. The AML blast cell would appear as the less-differentiated cell type when compared to the CML blast crisis cells. The picture, however, remains complex since in CML blast crisis at least three different types of blast cells can be identified: an Ia-positive and an Ia-negative myeloid blast as well as an Ia-positive lymphoid blast. The quantitative composition of these three elements within the myeloid differentiation profile can vary somewhat from patient to patient. Furthermore, these studies revealed a disturbed differentiation of leukemic cell types.
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PMID:Classification of leukemic cells by Ia alloantigens and complement receptors. Surface probes for cell differentiation. 37 3

Five cases of Ph1-positive AML were studied. In all cases a Ph1-chromosome was shown with banding techniques to be due to a translocation between chromosomes No. 9 and No. 22. Cases 1 and 4 were found to have more than one Ph1 with evidence of only on Ph1-translocation accompanying other chromosome abnormalities. Two cases represented an unusual pattern of appearance and disappearance of the Ph1-positive clone during their clinical courses: Case No. 2 was originally Ph1-positive (46,XY,Ph1) but two months before his expiration the Ph1-positive clone was completely replaced by a newly developed Ph1-negative clone with an abnormal chromosome No. 21 (46,XY,21q+), whereas case No. 3, primarily Ph1-negative, developed a Ph1-positive clone among the previously karyotypically normal cells one month before death. The Ph1-positive AML cases presented have been discussed in relation to: 1) the genesis and significance of the Ph1-positive clone, 2) differentiation from the blastic phase of CML and 31 the general experience with Ph1-positive acute non-lymphocytic leukemia (ANLL), the world literature of which have been tabulated.
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PMID:Chromosomes and causation of human cancer and leukemia. XXXII. Unusual features of Ph1-positive acute myeloblastic leukemia (AML), including a review of the literature. 37 56

Thirteen leukemic patients with disease refractory to conventional chemotherapy were treated with 1.0 to 7.5 g/m2 of Cytosine Arabinoside (Ara-C) over 29 drug cycles. Drug infusions were spaced at 12-hour intervals; a maximum of four doses was administered over 36 hours. After single dose tolerance had been established, three or four dose cycles were given at 2- to 30-day intervals. There were three partial remissions (PR) and one complete remission (CR) in a treatment group of four patients with AML, five with ALL, two with lymphoma converted to leukemic phase, one CML in blast crisis, and one promyelocytic leukemia. Five of the patients were septic and considered terminally ill at the time of treatment. All other patients had evidence of drug responsiveness. The nadir of the white count occurred from 3 to 12 days after treatment, with subsequent recovery of the peripheral granulocyte count between days 12 and 28. Toxicity included nausea and vomiting (GI symptoms) in twelve patients, central nervous system (CNS) disturbances in eight patients, one episode of inappropriate antidiuretic hormone syndromes (SIADH), one of hyperuricemia, and fever in eleven patients. There was no evidence of hepatic or renal dysfunction. These high doses of Ara-C appear useful for treatment of patients with refractory leukemia. Hospitalization is brief and toxicity acceptable.
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PMID:High dose cytosine arabinoside (HDARAC) in refractory acute leukemia. 49 9

The present study was undertaken to obtain more precise information about the purine biosynthetic pathway in human blood cells. 5'phosphoribosyl-l-pyrophosphate (PP-ribose-P) amidotransferase was found in cell-free extracts from all leukemic cells and normal lymphocytes and therefore these cells could synthesize the first intermediate of the purine-de-novo-synthesis. Normal leucocytes, erythrocytes and bone marrow cells lack this enzyme system and have an absolute requirement for externally supplied purines via salvage pathway. Leukemic blast cells show different enzyme activities independent of their cell count. Kinetic studies with the crude enzymes showed sigmoidal substrate velocity curves for PP-ribose-P, whereas glutamine shows hyperbolic kinetics. The leukemic cell enzymes from all four donor types (ALL, CLL, AML and CML) are rapidly saturated with low concentrations of PP-ribose-P and less inhibited by the physiological feedback inhibitor, adenosine 5'monophosphate. The crude enzymes of normal spleen lymphocytes and leukemic cells were further purified (10 to 15-fold) and substrate velocity curves for PP-ribose-P and glutamine show now hyperbolic kinetics and double reciprocal plots were linear with and apparent Km for PP-ribose-P of 0.14 mM and for glutamine 2.0 mM. In the presence of different concentrations of AMP, the PP-ribose-P substrate velocity plot changed from a hyperbolic to a sigmoidal curve; no difference in the degree of the inhibition between both partially purified enzymes (normal spleen lymphocytes and leukemic cells from all four donor types) could now be observed.
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PMID:Purine nucleotide synthesis in normal and leukemic blood cells. 64 99

Fourteen cases of philadelphia chromosome (Ph1) positive chronic myeloid leukaemia in blast transformation have been investigated using cell surface markers. Morphologically eight cases were lymphoid and the remainder myeloid in appearance. All cases were negative with surface markers for thymocytes and T and B lymphocytes. Five of the lymphoid cases reacted with an antiserum specific for acute lymphoid leukaemia )ALL) of non-T non-B type and were also weakly reactive with a lymphocyte reactive antiserum. A sixth patient, whose blast cells were anti-ALL negative (ALL-) at presentation, subsequently developed central nervous system leukaemia with anti-ALL positive (ALL+) blast cells in the CSF. In all cases the leukaemic blast cells showed greatly diminished expression of cholera toxin receptors when compared to granulocytic cells from the chronic phase of CML. This parallels weak or negligible expression of the cholera toxin receptor in ALL and AML. These results suggest that the blastic phase of CML may involve different cellular derivatives of a pluripotential stem cell in which the primary malignant/genetic changes reside. The blast crisis of CML can therefore be heterogeneous with respect to cellular expression and in a significant proportion of patients involves a cell which is by membrane markers and morphological criteria indistinguishable from that seen in the common form of ALL. In these cases the Philadelphia chromosome may be the only distinguishing cellular characteristic.
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PMID:Blast crisis of chronic myeloid leukaemia (CML). II. Cell surface marker analysis of "lymphoid" and myeloid cases. 78 72

Standardized culture of bone marrow in soft agar permits the detection of a population of granulocyte-macrophage progenitor cells (CFU-c). A spectrum of qualitative abnormalities serves to distinguish myeloid leukemic CFU-c from normal and remission populations. These abnormalities in maturation and proliferation are diagnostic of a myeloid leukemic state and serve to functionally reclassify acute myeloid leukemia at diagnosis into a number of categories based on in vitro growth pattern. The virtue of this classification is that it permits detection of a substantial number of patients who are refractory to conventional remission induction protocols. The clear distinction between normal and leukemic growth in vitro permits early detection of emerging remission CFU-c during induction therapy and of early onset of relapse in patients who are otherwise in complete remission. In patients with leukemia undergoing allogeneic bone marrow engraftment, marrow culture has proved of value in documenting the reconstitution of the patient and in detecting re-emergence of the original leukemic stem line prior to its detection by cytogenetic and hematological techniques. Serial studies on patients with chronic myeloid leukemia have allowed early diagnosis of blastic transformation and classification of blastic phase disease on the basis of in vitro growth pattern has revealed a similar spectrum of in vitro abnormalities as seen in AML. The cloning of normal or leukemic human myeloid progenitor cells (CFU-c) in agar or methylcellulose has permitted analysis of both quantitative and qualitative changes in this cell compartment in leukemia and other myelodysplastic states (1-7). Among these changes are abnormalities in maturation of leukemic cells in vitro (4, 5, 6), defective proliferation as measured by colony size or cluster to colony ratio (5, 6), abnormalities in biophysical characteristics of leukemic CFU-c (4, 5), regulatory defects in responsiveness to positive and negative feedback control mechanisms (8, 9) and the existence of cytogenetic abnormalities in vitro (10, 11). Detection of this spectrum of abnormalities has proved of clinical utility in diagnosis of leukemia and preleukemic states (5, 6, 12), in classification of leukemias and myeloproliferative diseases (5, 6), in predicting remission prognosis and response to therapy (5, 13), in predicting onset of remission or relapse in AML (13) and in monitoring the progression of chronic myeloid leukemia or preleukemic disease (4, 14). The present communication serves to illustrate the clinical applications of bone marrow culture in these various areas.
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PMID:Clinical utility of bone marrow culture. 79 48

The possibility that oxymetholone might induce or enhance leukemia after androgen therapy for aplastic anemia prompted us to study the direct action of oxymetholone on the DNA synthesis of AML cells in vitro. The peripheral blasts of 10 patients, 8 with AML and 2 with CML in blast crisis have been studied. The DNA synthesis of the leukemic cells with and without oxymetholone was measured by the 3H-methyl-thymidine incorporation determined by liquid scintillation. The results have been shown a wide variation of DNA synthesis from patient to patient with a range from 2,000 to 40,000 cpm but no significant difference between test and control cultures. We may conclude that oxymetholone does not increase directly the proliferation capacity of the peripheral AML cells cultured in vitro.
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PMID:Oxymetholone effect of acute myeloblastic leukemia cells in vitro. 82 Dec 91

Three male patients with leukemia were found with banding techniques to have unusual cytogenetic pictures in the cells of their marrow, spleen or blood. Case No. 1 (78 yr old) was that of a Ph1-negative CML with a missing Y in the blood (cultured without PHA) and marrow cells. The patient is still alive and responding to therapy. Case No 2 (54 yr old) was considered prior to admission to have either CML or AML, but was shown, in fact, to be in the blastic phase of CML; all the cells in his marrow and spleen were Ph1-positive, but with no evidence of a translocation. Other karyotypic findings (+8, +11, +13, +21) frequently encountered in the blastic phase of CML were present in the cells of this patient. Case No. 3 (50 yr old) with AML was shown to have a Ph1 resulting from a standard translocation, i.e., [t(9;22) (q34;q11)], in a substantial number of the cells in the marrrow and blood (cultured without PHA). The implications of these unusual findings are discussed in relation to the chromosomal pictures usually encountered in these states.
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PMID:Chromosomes and causation of human cancer and leukemia. XXI. Cytogenetically unusual cases of leukemia. 106 75

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