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)

Cytogenetic analyses were performed on 12 adult patients with abnormal megakaryoblastic proliferation which was detected by ultrastructural cytochemical study (platelet peroxidase) and platelet-megakaryocytes-specific monoclonal antibodies (TP-80, Plt1, AN51, and KOR-77). The patients consisted of two patients with myelodysplastic syndromes (MDS), three with acute megakaryoblastic leukemia (AMKL), six with megakaryoblastic transformation in Philadelphia-positive chronic myelogenous leukemia (CML-meg-BC), and one case of chronic myeloproliferative disorder (CMPD). Among them, an inversion of the long arm of chromosome 3 [inv(3)(q21q26)] was found in one AMKL patient with a normal platelet count. Chromosome change at band 3q26 was also found in one MDS patient without thrombocythemia. Furthermore, the long arm of chromosome 13, where rearrangements in myelofibrosis are clustered (13q12----q22) was seen in one MDS patient. Trisomoy of chromosome 19 was found in one AMKL patient and three CML-meg-BC patients. These findings indicate that cytogenetic abnormalities involving 3q26, 13q, and trisomy 19 are associated with hematologic neoplasia with megakaryocytic lineage in adult patients, although these abnormalities were not related to the survival of the patients. During the period of this study, two acute myelogenous leukemia patients (AML-M2 and AML-M5b) with chromosome rearrangements at band 3q21 and thrombocythemia were found, indicating that chromosome abnormality at band 3q21 is related to quantitative platelet dysfunction, whereas that at 3q26 is related to hematologic malignancies with a proliferation of megakaryocytic lineage.
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PMID:Cytogenetic findings in adult acute leukemia and myeloproliferative disorders with an involvement of megakaryocyte lineage. 229 63

We report on eight patients who were 35 to 77 years old with an isochromosome 17q as the sole structural chromosomal anomaly. Additional numerical chromosomal changes were a trisomy 8 or 17 in two cases each and a trisomy 19 in one case. Five patients had myelodysplastic syndrome (MDS) diagnosed according to the FAB nomenclature as chronic myelomonocytic leukemia (CMML) in two cases, refractory anemia with excess of blasts in transformation (RAEBt) in two cases, and refractory anemia with excess of blasts (RAEB) in one case. One patient suffered from a myeloproliferative disorder (MPS). All cases progressed to acute nonlymphocytic leukemia (ANLL) type M1, M2, or M4 in a period of 2 to 30 months after initial diagnosis, except one patient with RAEBt who died within 2 months. Two patients presented with ANLL-M2 at time of diagnosis. Treatment during the chronic phase of disease consisted of mild cytoreduction and/or substitution of platelets or red blood cells. One patient with CMML received an allogeneic bone marrow graft and relapsed after 33 months with ANLL-M1. Treatment results for overt leukemia were poor, and survival was short, lasting from 1 to 4 months. Overall survival was 1 to 37 months (median duration, 6.5 months). Molecular studies in two cases revealed neither a BCR rearrangement nor a translocation of the ABL protooncogene, as observed in Ph1-positive chronic myeloid leukemia (CML). Thus, an i(17q) anomaly seems to identify a distinct subgroup of mostly myelodysplastic and, less frequently, myeloproliferative disorders that progress rapidly to ANLL, respond poorly to chemotherapy, and are associated with short survival after transformation.
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PMID:Isochromosome 17q in Ph1-negative leukemia: a clinical, cytogenetic, and molecular study. 222 38

The fine-needle aspiration (FNA) cytology of two cases of granulocytic sarcoma involving the breast is reported along with the FNA cytology of one case of myeloid metaplasia (extramedullary hematopoiesis) involving an axillary lymph node. Two patients had known myeloproliferative disorders, while granulocytic sarcoma of the breast was the initial presentation of an unsuspected acute granulocytic leukemia in the other patient. Diff-Quik-stained preparations aided in the diagnosis of all three cases. Immunoperoxidase stains for factor VIII-related antigen helped confirm the megakaryocytic differentiation of the cells in the FNA cytology of myeloid metaplasia. Electron microscopic (EM) examination performed on the aspirated material also showed megakaryocytic differentiation of the bizarre cells. FNA cytology can make a specific diagnosis of granulocytic sarcoma and myeloid metaplasia. The workup of these unusual extramedullary myeloproliferative masses was aided when immunocytochemistry and EM were performed on the aspirated material.
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PMID:Fine-needle aspiration cytology of granulocytic sarcoma and myeloid metaplasia. 233 34

3 patients with acute nonlymphocytic leukemia (ANLL) and an isochromosome (17q) as the sole chromosomal defect are reported. Besides this cytogenetic pattern, they shared several clinical and hematological features such as male sex, advanced age, spleno- and/or hepatomegaly and a suspected preceding myeloproliferative syndrome. Bone marrow cytology was characterized by hypercellularity, prominent baso- and eosinophilia, decreased erythropoiesis and marked increase of dysmorphic megakaryocytes. We suggest that some or most patients with ANLL and i(17q) as the sole cytogenetic defect represent blastic transformation of an underlying chronic myeloproliferative disorder rather than de novo ANLL.
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PMID:Acute nonlymphocytic leukemia (ANLL) with isochromosome i(17q) as the sole chromosomal anomaly: a distinct entity? 236 43

Eighty-one consecutive hydroxyurea-treated patients with Philadelphia (Ph) chromosome negative chronic myeloproliferative disease were followed prospectively from 1981 to 1989; 35 of them had polycythemia vera, 32 had essential thrombocythemia, 12 had myelofibrosis, and 2 had myeloproliferative syndromes. The 81 patients were treated with hydroxyurea for a total of 3,804 months during the observation time. Only three patients had been treated with alkylating agents or 32P before start of hydroxyurea treatment. Four patients transformed into acute myeloid leukemia or myelodysplastic syndromes; three of these patients had essential thrombocythemia, and one had a myeloproliferative syndrome. Two patients died of solid cancers. Five out of 53 evaluable patients (9%) had pretreatment clonal cytogenetic abnormalities involving chromosomes 1, 9, 20, and 21. At follow-up, during or after hydroxyurea treatment, 15% had cytogenetic abnormalities, an unexpectedly low frequency compared to the previously reported frequency in patients with polycythemia vera treated with alkylating agents. None of our patients who developed cytogenetic clonal changes during hydroxyurea therapy had polycythemia vera. However, follow-up is too short to draw any conclusions about the mutagenic potential of hydroxyurea compared to alkylating agents.
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PMID:Cytogenetic abnormalities and leukemic transformation in hydroxyurea-treated patients with Philadelphia chromosome negative chronic myeloproliferative disease. 239 74

A girl with Down's syndrome was born with a myeloproliferative disorder. The child had spontaneous regression of the myeloproliferation, with acute leukemia developing at a later date. Morphologic, cytochemical, immunologic, and immunoglobulin gene configuration studies all supported the diagnosis of acute nonlymphocytic leukemia. High-resolution chromosome studies revealed that the leukemic cells consistently contained a translocation between chromosomes 1 and 19: der(19)t(1;19)(q25;p13). Spontaneous regression of the transient myeloproliferative syndrome of the newborn with Down's syndrome may not always be permanent, and the transient myeloproliferative syndrome may sometimes represent an early sign of acute nonlymphocytic leukemia.
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PMID:Leukemia with Down's syndrome: translocation between chromosomes 1 and 19 in acute myelomonocytic leukemia following transient congenital myeloproliferative syndrome. 241 89

Granulocytic sarcoma (GS) is an extramedullary tumor composed of granulocytic precursor cells. The tumor usually develops during the course of myelogenous leukemia or myeloproliferative disorders and may represent the initial manifestation of leukemia. Rarely, GS is recognized as an isolated tumor without any evidence of leukemia. However, in such cases, leukemia generally develops within 1 to 2 years of the diagnosis of GS. We are reporting a case of a 45-year-old woman who was diagnosed as having an isolated GS of the right breast in August 1980. She was treated with a partial mastectomy followed by 1 year of combination chemotherapy as used in the cases of acute myeloblastic leukemia and has remained free of disease to the present time. That is, she has not developed leukemia or recurrence of GS for 64 months. Based on this experience and on the review of the literature, we recommend that all cases of GS be treated with combination chemotherapy as in cases of acute myeloblastic leukemias.
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PMID:Isolated granulocytic sarcoma: report of a case and review of the literature. 242 54

Clinical, cytomorphologic, and cytogenetic investigations were carried out in a series of 76 secondary MDS and ANLL. Chromosome abnormalities were more frequent in patients with a history of multiple myeloma or macroglobulinemia (92%) and myeloproliferative disorders (82%) than in patients with previous breast cancer (40%). The secondary hematologic malignancies were mostly a trilineage bone marrow disorder. The most commonly found cytogenetic anomaly was monosomy 7, followed by total or partial loss of chromosome 5. In addition six other chromosomes, i.e., chromosome 3, 8, 9, 12, 17, and 21 seemed to be consistently involved in the pathogenetic mechanisms of secondary leukemia and MDS.
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PMID:Cytogenetic and clinical investigations in 76 cases with therapy-related leukemia and myelodysplastic syndrome. 259 67

Four monoclonal antibodies against human erythrocyte membrane antigens were established. The antigenic determinants of KOR-E1, E3, E6 were Pr1h antigen, Wrb antigen, and the trypsin sensitive portion of glycophorin A (EnaTS) respectively. The antigen recognized by KOR-E4 could not be determined. The reactivities of these antibodies with normal hematopoietic cells, malignant hematopoietic cell lines (N = 31), and fresh leukemic cells obtained from 128 patients with various types of leukemias were studied. All antibodies reacted only with erythrocytes among peripheral blood cells, and also KOR-E6 reacted only with erythroid cells among bone marrow cells. KOR-E3 had no reactivity with any cell lines examined, and KOR-E1 and KOR-E4 were reactive with some lymphoid cell lines. However, KOR-E6 had specific reactivities with erythroid (HEL, K562), megakaryocytic (CMK-1), multiphenotypic (KOPM-28), and basophilic (KU-812) cell lines. The antigen (glycophorin A) recognized by KOR-E6 was expressed on a small population of mononuclear cells separated from acute lymphoblastic leukemia (3/70), acute myelogenous leukemia (2/12), monosomy 7-myeloproliferative disorder (1/1), juvenile CML (1/1), and transient myeloproliferative disorder with Down's syndrome (4/12), although it could not be determined whether these cells were leukemic cells or not. KOR-E6 was reactive with a large population of leukemic blasts in erythroleukemia (2/2) and acute megakaryoblastic leukemia (3/6). Thus, KOR-E6 appears to be an erythroid marker of leukemic cells.
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PMID:[Monoclonal antibodies against human erythrocyte membrane antigens and their reactivities with hematopoietic cells]. 261 36

The effects of recombinant human interleukin 3 (IL3) on normal bone marrow cells and human leukemic cells were studied. In clonal assays, IL3 supported the growth of all colony types including megakaryocytes. Erythroid colonies were formed in the presence of IL3 and erythropoietin, but not in the absence of erythropoietin. Replating experiments using blast cell colonies derived from a cell population enriched for progenitor cells by fluorescence-activated cell sorting with the monoclonal antibody 3C5, showed that IL3 supported the continued replating of colonies. The clonal proliferation of human bone marrow cells in response to IL3 was inhibited by tumor necrosis factor and by lymphotoxin, but not by interferon-gamma. In suspension cultures, IL3 supported the proliferation of mast cells. Human IL3 had no effect on the growth responses, morphology, cytochemistry, or clonogenicity of the human leukemic cell lines HL60, U-937, KG1a, and HEL. Transcripts for IL3 mRNA were not detectable in these cells, nor in the K562 cell line, implying that autocrine secretion of IL3 was not the mechanism by which these leukemias were maintained. Although cells derived from the bone marrow or peripheral blood of twenty patients with myeloproliferative disorders, myelodysplastic syndromes or acute myeloid leukemia frequently showed proliferative responses to IL3, mRNA transcripts for IL3 were not detected in these cells.
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PMID:Human interleukin 3: effects on normal and leukemic cells. 262 75

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