UMLS:C0023467 - FACTA Search

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Query: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cell cycle phases of bone marrow cells from 8 patients with iron deficiency anemia (IDA), 8 aplastic anemia (AA), 30 myelodysplastic syndrome (MDS), 41 acute leukemia (AL) before treatment, 8 acute leukemia in relapse, 17 acute leukemia in complete remission (CR), 12 chronic myelogenous leukemia (CML) and 4 chronic lymphocytic leukemia (CLL) were analysed with flow cytometry. The proportions of phases of S. G2 M in patients with IDA, refractory anemia, and refractory anemia with ring sideroblast were similar to these in normal controls (P > 0.05). However, they were significantly lower in patients with AA, refractory anemia with excess of blast (RAEB) and transformed RAEB than those in normal controls (P < 0.01, respectively), and CML patients than in normal controls (P < 0.05). The S G2M% was apparently higher in patients with CML than that in CLL (P < 0.01). But, there was no difference between in ALL and ANLL (P > 0.05). It was higher in patients with AL in CR and in relapse than AL before treatment (both P < 0.01). It was still lower in the former than that in normal controls. (P < 0.05). The clinical significance of cell cycle status was also discussed in this paper.
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PMID:[Flow cytometric analysis of bone marrow cell cycles in patients with hematologic diseases]. 147 30

The chromosome der(1;7) (q10;p10) is a derivative chromosome consisting of the short arm of chromosome 7 and the long arm of chromosome 1. We observed this abnormality in three patients with acute myeloblastic leukemia (AML), myelodysplastic syndrome (MDS), or myeloproliferative disorder (MPD). Case 1 was a 76-yr-old male with a history of IgG myeloma treated with melphalan, cyclophosphamide, vincristine, and prednisolone (MEVP). AML-M1 developed one and half years after discontinuation of the MEVP therapy. Case 2 was a 39-yr-old male with MDS. Case 3 was a 56-yr-old male with refractory anemia with excess of blasts in transformation that evolved from primary myelofibrosis. Chromosome analyses revealed der(1;7) (q10;p10) in bone marrow cells of the three patients. All patients failed to respond to chemotherapy, and died within four months after the diagnosis. Thus, der (1;7) (q10;p10) may indicate a very poor prognostic outcome in patients with malignant hematologic disorders.
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PMID:[der(1;7) (q10;p10) in three patients with malignant hematologic disorders]. 147 94

We analyzed activating mutations of N-ras and K-ras by the polymerase chain reaction and oligonucleotide hybridization in hematological disorders. Activating mutations of these codons were detected in 4 of 20 cases of myelodysplastic syndrome (MDS) and 15 of 77 cases of acute myelogenous leukemia (AML). Our of 19 cases of MDS and AML who carried active mutations, 7 cases were found to have two or more distinct mutations in activating codons of N-ras and K-ras. Ras mutation was found preferentially in progressive disease such as refractory anemia with excess of blasts (RAEB) of RAEB in transformation (RAEB-t). A relatively high incidence of ras mutation was found in M5 AML (40%). No ras mutations were found in other hematological disorders, such as acute lymphoblastic leukemia and chronic myelogenous-leukemia. The most frequent amino acid substitution was that of an aspartate for glycine at codon 12 of N-ras resulting from G to A mutation (11/35). The survival of AML patients who carried ras mutations showed no significant differences from those without ras mutations calculated by Kaplan-Meier. Seven cases of MDS and 7 cases of AML patients could be investigated at various points during their clinical course. Among these 14 cases, we found 2 interesting cases of MDS. The first case lost multiple clones carrying ras mutations during disease progression, the second case acquired mutation of the ras gene during disease progression. These results suggested that multiple point mutations of ras genes may not be initiating events but may contribute to a clonal evolution of MDS and AML.
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PMID:Multiple point mutation of N-ras and K-ras oncogenes in myelodysplastic syndrome and acute myelogenous leukemia. 157 46

Defects of 3q in bands q21 and q26 have been reported in more than 70 cases of acute nonlymphocytic leukemia (ANLL), myelodysplastic syndrome (MDS), and myeloproliferative disorder (MPD) in blast crisis. In this paper three additional patients are described: patient 1 with refractory anemia with excess of blasts in transformation (RAEB-T) and inv(3)(q21q26), patient 2 with RAEB-T and t(3;3)(q21;q26), and patient 3 with myelofibrosis with myeloid metaplasia (MMM) in blast crisis and inv(3)(q21q26). In addition to 3q rearrangements, monosomy 7 and del(7)(q22q36) were observed in patients 1 and 2, respectively. In the three patients, the most characteristic clinical features were elevated platelet counts, marked hyperplasia with dysplasia of the megakaryocytes, and poor prognosis. Although disturbance of thrombopoiesis was not systematically observed in all patients with t(3;3)(q21;q26), inv(3)(q21q26), and ins or dup(3)(q21----q26), study of the 77 cases reported and of the three cases presented here brings further evidence to the existence of a cytogenetic syndrome involving bands q21 and q26 simultaneously, which represents a subtype of ANLL, MDS, and MPD, characterized by normal or elevated platelet counts, hyperplasia with dysplasia of megakaryocytes, multilineage involvement, young median age of patients with MDS, preferential involvement of women in t(3;3), high incidence of chromosome 7 defects in MDS and ANLL, short duration of the MDS phase, no response to chemotherapy, short survival, and por prognosis.
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PMID:Three new cases of chromosome 3 rearrangement in bands q21 and q26 with abnormal thrombopoiesis bring further evidence to the existence of a 3q21q26 syndrome. 158 80

Translocation (6;9)(p23;q34) is a cytogenetic aberration that can be found in specific subtypes of both acute myeloid leukemia (AML) and myelodysplastic syndrome (MDS). This translocation is associated with an unfavourable prognosis. Recently, the genes involved in the t(6;9) were isolated and characterized. Breakpoints in both the dek gene on chromosome 6 and the can gene on chromosome 9 appear to occur in defined regions, which allows us to diagnose this type of leukemia at the molecular level. Moreover, because of the translocation a chimeric dek-can mRNA is formed which, as we show here, is an additional target for diagnosis via cDNA-preparation and the polymerase chain reaction (PCR). We studied 17 patients whose blood cells and/or bone marrow cells showed a t(6;9) with karyotypic analysis. Fourteen patients suffered from AML, one patient had a refractory anemia with excess of blasts in transformation (RAEBt), one patient had an acute myelofibrosis (AMF), and one patient a chronic myeloid leukemia (CML). In nine cases studies at the DNA and RNA levels were possible while in seven cases only the DNA could be analyzed. In one case only RNA was available. Conventional Southern blot analysis showed the presence of rearrangements of both the dek gene and the can gene. In both genes, breakpoints cluster in one intron in the patients investigated. The presence of a consistent chimeric dek-can product after cDNA preparation followed by the PCR was demonstrated. We conclude from our data that the t(6;9) is found in myeloproliferative disorders with typical clinical characteristics. This translocation results in highly consistent abnormalities at the molecular level.
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PMID:The translocation (6;9) (p23;q34) shows consistent rearrangement of two genes and defines a myeloproliferative disorder with specific clinical features. 158 43

We studied the in vitro effects of granulocyte-macrophage colony-stimulating factor (GM-CSF) in 13 patients with acute myeloid leukemia (AML) and one patient with refractory anemia with excess of blasts in transformation using the AML blast (AML colony-forming units, AML-CFU) and mixed (granulocyte erythrocyte macrophage megakaryocyte colony-forming units, CFU-GEMM) colony culture assays. In parallel, these patients received GM-CSF s.c. at 125 micrograms/m2/day, or in escalated doses starting with 10 micrograms/m2/day for a week or until circulating blast counts reached 50 x 10(9)/liter, in an effort to sensitize leukemic blasts to cell-cycle-specific agents. Results of in vivo GM-CSF treatment were correlated with those of in vitro assays. In 9 of 12 patients (75%), GM-CSF treatment increased peripheral blood blast counts (in vivo effect). GM-CSF also stimulated in vitro AML blast colony proliferation in these nine patients and increased the S+G2M phases of the cell cycle in five out of five of these patients' samples. Two of three patients in whom an in vivo response could not be demonstrated also failed to have a detectable in vitro response. These observations suggest that the AML blast colony culture assay may be useful in predicting the response of AML to cytokine therapy. Finally, GM-CSF stimulated granulocyte-macrophage (granulocyte-macrophage colony-forming units, CFU-GM) and erythroid (erythroid burst-forming units, BFU-E) colony proliferation in 14 and 11 patients, respectively, including the 3 individuals who demonstrated no clinical effect on blast counts. It is, therefore, possible that GM-CSF may be used to stimulate proliferation of progenitors that differentiate into mature granulocyte, monocyte-macrophage, and erythroid cells.
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PMID:Comparison of in vivo and in vitro effects of granulocyte-macrophage colony-stimulating factor (GM-CSF) in patients with acute myeloid leukemia. 158 2

In myelodysplastic syndromes (MDS), complete remission rates of acute myelogenous leukemia (AML)-type chemotherapeutic regimens vary widely, ranging from 15% in patients with myelodysplasia after previous cytotoxic therapy to 61% in patients with refractory anemia with an excess of blasts in transformation without previous exposure to leukemogenic chemicals. The duration of remission is usually short, and those that exceed 24 months are unusual. Results of treatment are identical in the different types of MDS. No sufficient data on aggressive therapy are available for refractory anemia and refractory anemia with ringed sideroblasts. Prognostically favorable subgroups of patients are defined by age (below 45 or 50 years), no prior history of cytotoxic drug exposure, and absence of cytogenetic aberrations, especially of chromosomes 5 and/or 7. In contrast to AML-type chemotherapy, allogeneic bone marrow transplantation following high-dose (radio) chemotherapy offers a significantly greater chance of cure with a long-term relapse-free survival rate of 30% to 60%.
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PMID:Intensive chemotherapy and bone marrow transplantation for myelodysplastic syndromes. 161 10

We report studies of 12 patients with refractory anemia and excess of blasts in transformation (RAEB-t) and 17 with acute myeloblastic leukemia (AML) after RAEB. Besides chromosome 5 and 7 abnormalities, five patients with complex karyotypic changes had monosomy 22. This association is discussed in relation to the hypothesis of a suppressor gene located on chromosome 22.
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PMID:Loss of chromosome 22 in patients with refractory anemia with excess of blasts (RAEB) in transformation and acute leukemia after RAEB. 163 7

Forty-three patients with myelodysplastic syndrome (MDS) were retrospectively analyzed for its prognostic factors. We evaluated the relationship of the clinical, biochemical, and hematological data, as well as colony-forming unit myeloid (CFU-C) culture, Bournemouth score, modified Bournemouth score, and modified Dutcher score to the prognosis. The median age was 65 years. Eighteen patients had refractory anemia (RA), 4 had refractory anemia with ringed sideroblasts (RARS), 15 had refractory anemia with excess blasts (RAEB), 2 had refractory anemia with excess blasts in transformation (RAEB-t), and 4 had chronic myelomonocytic leukemia (CMMoL). The median survival of all patients was 482 days. The median survival for each subtype was as follows: RA, 628 days; CMMoL, 350 days; RAEB, 240 days; RAEB-t, 90 days. For RARS, no data have yet been obtained, because only one out of 4 patients with RARS has died. We subdivided all patients into two groups: one group included patients with RA or RARS and the other group included patients with RAEB, RAEB-t or CMMoL. The former group had a median survival of 677 days and the latter group 240 days, p = 0.0035. In the former group, 3 out of 22 patients (13.6%) developed acute myeloid leukemia (AML), as compared to 8 out of 21 patients (38.1%) in the latter group, p = 0.0661. Twenty-five of the 43 patients died: 10 from AML and 15 from infection and/or bleeding.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Myelodysplastic syndrome: a study of prognostic factors. 167 97

Multiple genes of hematopoietic importance have been localized to the long arm of chromosome 5 including granulocytemacrophage colony stimulating factor (GM-CSF) and interleukins (IL) 3, 4 and 5 to 5q23-31, colony stimulating factor 1 (CSF1) to 5q33.1 and its receptor (c-fms) to 5q33.3. The genes coding for platelet-derived growth factor receptor (PDGFR) and acidic fibroblast growth factor (FGFA) have been localized to 5q31-32 and 5q31.3-33.2, respectively. These genes fall in the region of chromosome 5 which is deleted in the 5q- refractory anemia syndrome (5q-RA) and acute nonlymphocytic leukemia (ANLL). We have characterized this region in a 5q- patient with therapy-related ANLL (t-ANLL) by pulsed-field gel electrophoresis and Southern blotting analysis utilizing DNA probes for PDGFR, c-fms, and FGFA. A single 300 kbp M1uI restriction fragment was detected in the patient using a PDGFR probe as compared to a 200 kbp fragment in normal controls. BssHII digestions also showed restriction fragment length difference. Similar data for both M1uI and BssHII digestions were also obtained when c-fms was used as a probe. Southern blotting analysis of EcoRI-digested DNA showed that each of the PDGFR, c-fms, and FGFA alleles were deleted. These results suggested that one chromosome 5 has a large deletion involving PDGFR, c-fms and FGFA, which is consistent with the cytogenetic analysis of the patient. In contrast, the other chromosome 5, which appeared normal cytogenetically, may have a smaller deletion (or alteration) in proximity to but not involving any of these 3 genes.
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PMID:Characterization of the 5q- breakpoint in an acute nonlymphocytic leukemia patient using pulsed-field gel electrophoresis. 172 47

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