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)

Interferon-alpha (IFN-alpha) exhibits a clear platelet reductive effect in patients with essential thrombocythemia as well as in other chronic myeloproliferative disorders with thrombocytosis. In a total of 51 patients with chronic myeloproliferative disorders with thrombocytosis we analyzed the effect of IFN-alpha in respect to platelet reduction, remission rates, induction- and maintenance dosage, long term tolerance and side effects. According to our classification CML 6, chronic mega-karyocytic granulocytic myelosis 5, essential thrombocythemia 26 and polycythemia vera 15 patients were treated. Treatment consisted of induction with 3 or 5 MU IFN-alpha daily followed by a maintenance therapy with 3 or 5 MU thrice weekly. Platelet reduction was found in all patients, CR (platelets < 450 G/l) in 78%. Within 2 months of induction therapy, CR in patients treated with 5 MU IFN daily was found in 75% compared to 52% in patients treated with 3 MU IFN daily. Dosage reduction in maintenance periode caused an increase of platelets to more than 450 G/l in 39% of patients. Out of 40 Philadelphia-negative chronic myeloproliferative disorders treated for more than 3 months in 10 patients treatment was disrupted after 5 to 18 months because of the following side effects: nausea, fatigue, vertigo, fever, headache, diarrhea, anorexia, heartburn, hairloss, myalgia, and thrombocytopenia. Due to the mutagenic effect of alkylating cytostatics and Radiophosphorus, IFN-alpha treatment represents a first line strategy for chronic myeloproliferative disorders with thrombocytosis especially in younger patients who are symptomatic and in those who suffered from episodes of bleeding or thrombosis.
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PMID:[Interferon therapy in essential thrombocythemia]. 827 65

Although vitamin B12 is an essential coenzyme for DNA synthesis, humans, like other mammals, are incapable of synthesizing it. The role of intrinsic factor (IF) in B12 absorption is widely known, but, in fact there exists a much more intricate and complex mechanism for the effective assimilation of this important trace element in humans. B12 binding proteins play important roles in all stages of vitamin B12 metabolism. They are involved not only in its absorption, but also in its transport in serum, uptake to cells, storage in organs, enterohepatic circulation, and elimination of its analogues. Besides IF, well-known as a vitamin B12 binding protein found in gastric juice, there are other kinds of binding proteins found in human serum which are composed to transcobalamin (TC) I, II and III. Elevation of the vitamin B12 level in chronic myelogenous leukemia was first reported in the 1950s. Since then, B12 elevation has been found to occur in other kinds of chronic myeloproliferative disorders (CMPDs) as well and to be caused by an increase of serum TC. In CMPDs, either TCI or TCIII increases, but, the degree of elevation and the type of TC involved differs for each disorder. This article describes the changes in TC of CMPD patients. With the induction of the developed radioimmunoassay for R-type B12 binding protein, many cases have been examined. In addition, detailed qualitative analysis using DEAE cellulose column chromatography has been included for conditions not previously reported.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Vitamin B12 and transcobalamin in chronic myeloproliferative disorders]. 829 40

We have investigated the involvement of the p53 tumor suppressor gene and RAS family proto-oncogenes in BCR/ABL-negative chronic myeloproliferative disorders (CMPD), including nine cases of myelosclerosis with myeloid metaplasia, four polycythemia vera, 10 essential thrombocythemia, one juvenile chronic myeloid leukemia, and eight BCR/ABL-negative chronic myeloid leukemia. Twenty-five samples were studied in the chronic phase, while seven samples were analyzed in the acute accelerated or blastic phase. The presence of mutations in p53 exons 5-9, as well as in N-, K-, H-Ras exons 1 and 2 (containing codons 12, 13, and 61) was tested by the polymerase chain reaction (PCR) single strand conformation polymorphism technique and by PCR direct sequencing. In addition, restriction analysis was performed to screen for gross rearrangements within the p53 locus. Alterations of the p53 tumor suppressor gene and Ras family proto-oncogenes were detected in 2/7 and 3/7 cases of acute phase BCR/ABL-negative CMPD, respectively, while consistently negative in all the chronic phase samples analyzed. These results suggest that p53 inactivation and/or Ras activation might play a role in acute transformation of BCR/ABL-negative CMPD.
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PMID:Mutations in the P53 and RAS family genes are associated with tumor progression of BCR/ABL negative chronic myeloproliferative disorders. 832 Oct 46

The distribution and the development of fibrosis were evaluated from bone marrow biopsies of patients with chronic myeloproliferative disorders (CMPD), regarding two groups of patients: (1) 564 with follow-up biopsies over a period of up to twelve years observation time, and (2) 1.787 diagnostic bone marrow biopsies from CMPD patients. Fibrosis was divided into three grades of fiber increase: early myelosclerosis, myelofibrosis, and advanced myelofibrosis. The first group of sequential BMB showed a significant progress to myelofibrosis in so-called "Chronic Megakaryocytic-Granulocytic Myelosis"--CMGM-, which corresponds to Agnogenic Myeloid Metaplasia-AMM-in 72.4% (21/29 patients), as well as in CML with megakaryocytic increase-CML.MI-in 39.2% (20/51). In the second group of diagnostic biopsies, only 30% of CMGM cases showed no fibrosis. In P. vera, 16.2% (18/111) developed myelofibrosis up to twelve years later. This figure was 4.3% (2/46) in Primary Thrombocythemia. Increase of megakaryocytes in CML indicates a high risk for developing fibrosis, combined with reduced life expectancy.
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PMID:Myelofibrosis in chronic myeloproliferative disorders. Incidence among subtypes according to the Hannover Classification. 832 41

Diagnosis of chronic myeloproliferative disorders (CMPD) can encounter difficulties due to overlaps and possible transitions between the different entities and their similarity to reactive myeloproliferations. In this study DNA analysis has been applied to improve differentiation of CMPD. All subtypes of CMPD analyzed, including chronic myeloid leukemia (CML), agnogenic myeloid metaplasia (AMM), polycythemia vera (PV), and essential thrombocythemia (ET), had in common that granulocytes and bone marrow cells were clonal in origin as shown by X-chromosome-linked DNA polymorphism in conjunction with methylation patterns. Reactive myeloproliferations, by contrast, revealed a polyclonal inactivation pattern. Clonality could not distinguish CMPD from cases of myelodysplastic syndrome (MDS) since the latter also exhibited clonal hematopoiesis. AMM belongs to the group of myeloproliferative syndromes. Up to now the cellular phase at onset of the disease (megakaryocytic myelosis) has not been analyzed for clonality of the hematopoietic cells. Granulocytes as well as bone marrow cells from the cellular phase and advanced stages of the disease revealed a monoclonal inactivation pattern of X-chromosomal genes. These results show that the cellular phase already represents a monoclonal, and hence probably a neoplastic, proliferation of a pluripotent stem cell. The monoclonality of granulocytes could also be demonstrated in patients with splenomegaly and strongly argues against a compensatory proliferation of regular hematopoiesis in this organ. Because of their clonal origin, peripheral granulocytes were used in all cases (n = 244) for the detection of bcr-gene rearrangement. Despite possible morphological overlaps between different types of CMPD, bcr-gene rearrangement proved to be specific for CML and could be applied to differentiate CML from other CMPD in cases of uncertain morphological diagnosis. It is concluded that CMPD represent clonal hemopoietic disorders that probably have specific underlying genetic defects. Thus, DNA analysis can substantially aid in the differential diagnosis of CMPD.
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PMID:[Histopathology and molecular pathology of chronic myeloproliferative disorders]. 837 86

The chronic myeloproliferative disorders (MPD) comprise polycythemia vera (PV), idiopathic thrombocythemia (IT), chronic myeloid leukemia (CML) and myelofibrosis/osteomyelosclerosis (MF/OMS). Bone marrow biopsies of 3500 patients with known or suspected MPD were studied, and the clinical and morphologic variables registered were utilized for multivariate data analysis by selected BMD computer programs. The histologic criteria and the histologic subdivisions, as well as the evolution and prognosis of disease are outlined for each of the clinical entities. The results show that a bone marrow biopsy provides independent diagnostic and prognostic data in this group of hematologic malignancies and therefore constitutes an additional parameter in the diagnostic investigation of patients with suspected or established MPD.
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PMID:Potential of bone marrow biopsy in chronic myeloproliferative disorders (MPD). 843 14

Chromosomal deletions of band 13q14 occur recurrently in BCR/ABL negative chronic myeloproliferative disorders (CMPD), including myelosclerosis with myeloid metaplasia (MMM), polycythemia vera (PV), essential thrombocythemia (ET), juvenile chronic myeloid leukemia (JCML), and the so-called BCR/ABL- chronic myeloid leukemia (CML). The RBI tumor suppressor locus, mapping to 13q14, has long since been hypothesized as the important gene. In this report, we have determined the frequency of 13q14 deletions at the molecular level in a large panel of BCR/ABL- CMPD at different disease stages and performed a detailed genetic analysis of gross rearrangements/deletions and point mutations of the RBI gene in these disorders. Our data show that molecular deletions of 13q14 are detected in a relatively large fraction of BCR/ABL- CMPD (38%), that they appear to be more frequent in MMM than in other BCR/ABL- CMPD, and that they may be present at diagnosis or occur during blastic evolution of the neoplasia. The RBI gene displayed a germline configuration in all BCR/ABL- CMPD tested, suggesting that 13q14 deletions in these disorders affect a tumor suppressor locus distinct from RBI.
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PMID:Genetic analysis of chromosome 13 deletions in BCR/ABL negative chronic myeloproliferative disorders. 852 91

Histological examination of bone marrow biopsies shows that about one-third of chronic myeloid leukaemia (CML) patients exhibit an increase of megakaryocytes. The megakaryocytic predominance may be so striking that differentiation from other chronic myeloproliferative disorders (CMPD) may be difficult in some CML patients. Megakaryocytes in CML are clonal as demonstrated by loss of glucose-6-phosphate dehydrogenase isoenzymes. The Ph translocation, fusing the abl and bcr genes on chromosomes 9 and 22, however, obviously occurs as a second step in tumour development. So far, the Ph translocation has not been assigned explicitly to megakaryocytes. The question is whether the megakaryocytic cell lineage could harbour the bcr/abl fusion in those CML cases with striking proliferation of megakaryocytes but lack this genetic defect in cases with normal or decreased megakaryocyte counts. We therefore performed triple-colour fluorescence in situ hybridization (FISH) for portions of the bcr and abl genes flanking the breakpoint in CML in paraffin sections of CML cases with normal and with increased numbers of megakaryocytes. This method allows identification of the bcr/abl fusion in single, morphologically intact cells, whereas conventional cytogenetics requires lysis and thus destruction of the cell. Among the 21 CML patients examined by FISH, 10 were informative for bcr and abl genes and displayed distinct hybridization signals within nuclei of bone marrow cells. Besides the granulopoietic cells, megakaryocytes of all those patients (4 without and 6 with varying grades of megakaryocytic increase) displayed bcr/abl fusion signals indicative of a Ph translocation. The lack of hybridization signals in the remaining 11 cases indicates that this technique is not of value diagnostically and should be reserved for scientific questions. Positive controls consisted of conventional chromosome preparations from bone marrow aspirates demonstrating the Ph chromosome in all patients examined, and negative controls of paraffin sections of bone marrow biopsies from non-CML patients. These showed no fusion signals in bone marrow cells, including megakaryocytes, using FISH. Our results demonstrate clearly that not only the transforming event but also the Ph translocation leading to the bcr/abl fusion happens prior to the differentiation of the pluripotent stem cell into different myeloid lineages. The megakaryocytic proliferation evident in some CML cases is probably a consequence of the disease progress.
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PMID:Megakaryocytes carry the fused bcr-abl gene in chronic myeloid leukaemia: a fluorescence in situ hybridization analysis from bone marrow biopsies. 860 66

A 48-year-old Japanese man was admitted to our hospital because of general fatigue, nasal bleeding, and petechiae on his extremities. He was diagnosed with acute myelomonocytic leukemia with trilineage myelodysplasia (T-MDS). Chromosomal analysis of bone marrow cells revealed t(7;11)(p15;p15), which has been rarely reported but known to be characteristic of Japanese patients. Although t(7;11)(p15;p15) has been reported mainly in acute myelogenous leukemia (AML), it can be occasionally found in so-called stem cell diseases such as chronic myelogenous leukemia or chronic myeloproliferative disorders. Therefore, t(7;11)(p15;p15) might affect trilineage progenitors or stem cells as well as myeloid lineage cells, subsequently resulting in AML with T-MDS, as in our case reported here.
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PMID:t(7;11) and trilineage myelodysplasia in acute myelomonocytic leukemia. 861 92

Megakaryocyte (MK) ploidy patterns were analysed by flow cytometry in 29 newly diagnosed and previously untreated patients with chronic myeloproliferative disorders (MPD) and concomitant thrombocytosis, in 9 patients with reactive thrombocytosis (RT) and in 12 healthy individuals. Unfractionated bone marrow from routine aspirates was used. MKs were identified with a fluorescein labelled monoclonal antibody specific for glycoprotein IIIa (GPIIIa) and DNA was stained with propidium iodide. For the 12 healthy volunteers the mean modal ploidy number was 16 N; the 9 patients with RT displayed an identical MK ploidy pattern. The frequency of MKs with a ploidy > or = 32 N was 45% among the patients with essential thrombocythaemia (ET) compared to 32% among the healthy volunteers (p < 0.001). MKs with ploidy number > or = 64 N, comprising approximately 13% of the total number of MKs, was a characteristic finding in the patients with ET. Similar findings were present in 8 patients with polycythaemia vera (PV). In patients with PV 34% and 6% of the MKs displayed ploidies > or = 32 N and > or = 64 N, respectively. In contrast, a distinct shift towards lower ploidy number, with 63% of MKs < or = 8 N, was found among the 4 patients with chronic myeloid leukaemia (CML). The present results indicate that by using flow cytometric analysis of MK ploidy distribution in patients with thrombocytosis, those with a reactive cause are likely to be discriminated from patients with myeloproliferative thrombocytosis, i.e. PV and ET on one hand and CML on the other hand. The distinction between ET and PV, however, has to be made on other grounds.
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PMID:Flow cytometric analysis of megakaryocyte ploidy in chronic myeloproliferative disorders and reactive thrombocytosis. 864 2

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