Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023467 (acute myeloid leukemia)
 35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A cytogenetic anomaly consisting in the replacement of a 17 by its long arm isochromosome was identified as the only alteration in the marrow cells of two patients with acute granulocytic leukemia. In one case, the specific nature of the abnormal chromosome was established by newly available techniques. Since its identification in 1965, this structural anomaly, which implies 17 long arm duplication and short arm deletion, has been observed, as a sole or as an associated finding, in the malignant cells of a spectrum of blood disorders, including acute granulocytic leukemias, the blast crisis of chronic myeloid leukemia and lymphoreticular proliferative disorders. Attention is called to this particular rearrangement for its clinical as well as fundamental implications, as its presence in blood forming cells unfailingly hearalds a fast, fatal course of evolution.
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PMID:17 long arm isochromosome. A common anomaly in malignat blood disorders. 5 44

Terminal deoxynucleotidyl transferase (TDT) is an unusual DNA polymerase that does not use template information to synthesize new strands of DNA. It is normally found in high concentration in thymus (50 u/10(8) cells) and in low concentration in bone marrow (less than 5 u/10(8)). We report TDT measurements in the marrow and/or peripheral blood of 51 adult patients, 28 of whom had leukaemia. TDT is present in very high levels (greater than 50 u/10(8) cells) in leukaemic lymphoblasts and in low levels in leukaemic myeloblasts (less than 9 u/10(8) cells). Of two patients who developed lymphosarcoma-cell leukaemia following treatment of poorly differentiated lymphocytic lymphoma, one had high and one low levels of TDT in the leukaemic blast cells. Leukaemic cells from three of seven patients with chronic myeloid leukaemia in blast crisis had TDT levels within the range expected of acute lymphoblastic rather than acute myeloid leukaemia. High TDT in leukaemic cells probably marks them as derivatives of lymphoid progenitor, thymic or pluripotential stem cells. Quantitative assay of TDT may provide information useful in classifying haematological neoplasms.
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PMID:Terminal deoxynucleotidyl transferase measurements in the differential diagnosis of adult leukaemias. 6 84

Hydroperoxidase-positive Phi bodies and rods are much more prominent and prevalent than rods visualized with a Romanovsky-type stain (Auer rods) in immature leukocytes of patients with active acute myelogenous leukemia (AML). They are readily observed with the light microscope in peripheral blood or marrow films of AML patients stained to show their peroxidatic activity. In many of these patients, Auer rods, which apparently constitute only a small subpopulation of the hydroperoxidase-positive Phi bodies and rods, were detected with difficulty, if at all. The hydroperoxidase-positive Phi bodies and rods were observed in 92% of 36 patients with active disease. They were never observed in leukocytes of patients with other hematopoietic disorders or of normal individuals. Thus, they facilitated the distinction of AML from acute lymphocytic leukemia and chronic granulocytic leukemia in blast crisis. They were absent in full clinical remission after chemotherapy and were greatly diminished in partial remission. They were present in disease relapse and reappeared in five patients who had been in full remission. These results suggest that these hydroperoxidase-positive enlarged particles are pathognomonic of AML and that monitoring them with the light microscope may aid in guiding its clinical management.
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PMID:Facilitated light microscopic cytochemical diagnosis of acute myelogenous leukemia. 8 86

Unique fusiform or spindle-shaped particles (Phi bodies) and rods with hydroperoxidase (catalase and/or peroxidase) activity are present in human granulocyte precursors only in acute myelogenous leukemia (AML). These newly recognized particles are much more numerous and prominent than Auer rods. They may be rapidly and readily identified using the microscope in marrow or peripheral blood films when the procedures recommended in this paper for fixation, incubation for hydroperoxidase demonstration in 3,3'-diaminobenzidine (DAB)/H2O2 medium, copper salt treatment and counterstaining (optional) with the Papanicolaou method are employed. Films prepared in the same manner but treated with benzidine/H2O2 medium for myeloperoxidase did not reveal these particles. We believe that Phi bodies are pathognomonic of AML since they are almost invariably present in AML patients with active disease. Their presence serves to distinguish AML from acute lymphocytic leukemia and from chronic granulocytic leukemia in blast crisis. Since the particles disappear in disease remission and reappear upon relapse, the recommended procedure is not only useful in diagnosis but in guiding therapy. When a very rapid diagnosis is needed, it is not necessary to counterstain the preparations, but the nuclei, cytoplasm and plasmalemma can readily be observed in the granulocyte precursors when they are counterstained by the Papanicolaou method. This treatment does not diminish the clarity of the Phi bodies and rods which stain by virtue of their peroxidatic activity. This cytochemical diagnostic procedure should be considered for adoption by hematology laboratories.
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PMID:The light microscopic demonstration of hydroperoxidase-positive Phi bodies and rods in leukocytes in acute myeloid leukemia. 21 54

A case report of serial chromosome studies on a 26-year-old male with acute myeloid leukaemia (AML) is presented. The classic Philadelphia chromosome (Ph1) translocation, t (9;22) was found in 77% of the metaphases at diagnosis and in 100% in relapse; during a 3-month remission period the cytogenetic picture was normal or the Ph1 was present in a minor cell population only. The clinical and morphologic features of this case indicated that it was really a case of AML and less likely chronic myeloid leukaemia (CML) presenting in blast crisis. It is suggested that the oncogen producing the 9;22-translocation and CML may also induce AML in rare instances.
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PMID:Acute myeloid leukaemia with the Philadelphia chromosome. 27 50

Among 195 patients with variants of acute myelogenous leukemia (AML), a minimum of 11 met our criteria of smouldering AML: patients with less than 30% of blast cells plus promyelocytes in the bone marrow at the time of diagnosis who were observed without specific antileukemic therapy for a period of at least 6 months without entering a fulminant stage of the disease. These patients were older than other patients with AML, they had initially relatively few infections, bled rarely, and did not enter the fullblown clinical picture typical of acute leukemia until the last months of life. For these 11 patients the median survival time was 29 months from the time of diagnosis. Patients with smouldering leukemia shall be observed carefully and not be given specific antileukemic therapy, at least not before they flare into a blast crisis. Transfusions, antibiotics and a small dose of prednisone should be given when necessary.
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PMID:Smouldering acute myelogenous leukemia. 27 68

The blast cells of 19 patients with Ph1-positive chronic granulocytic leukaemia (CGL) in blast crisis (BC) were studied by means of several techniques: morphology, cytochemistry, ultrastructure, surface markers and the enzyme terminal transferase. Cells of BC were, in most case, extremely undifferentiated by morphology and cytochemistry. Our data showed that in 80% of cases the cells in BC were myeloid and in 20% they were "lymphoblastic". The M1, M2 and M3 forms (FAB classification) were rare in CGL BC compared with acute myeloid leukaemia (AML). A megakaryoblastic type was seen in 15% of BC cases; the existence of this form could only be demonstrated by electron microscopy. The limphoblastic BC cells were, as in acute lymphoblastic leukaemia (ALL), positive with Greaves' anti-ALL serum and had elevated levels of terminal transferase. A case of a 17-year old boy presenting as ALL, reverting to chronic-phase CGL after complete remission and developing terminally a myeloid BC is described in detail. This case helps to illustrate a new form of natural history of CGL unveiled by the present study.
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PMID:Ultrastructural, cytochemical and surface marker analysis of cells during blast crisis of chronic granulocytic leukaemia. 28 4

Cytogenetic studies of marrow using chromosomal banding techniques revealed the presence of the Philadelphia (PH1) chromosome in two patients with clinical and hematologic findings of acute myelogenous leukemia (AML). A review of the literature since the use of chromosomal banding techniques revealed about 15 patients with Ph1)-positive acute leukemia that we consider to be chronic granulocytic leukemia (CGL) occurring in blast crisis. We describe two additional patients, one of whom we believe is unique in that the initial blast crisis contained Auer's rod-positive cells.
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PMID:Chronic granulocytic leukemia occurring in blast crisis. 28 16

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

Antisera were raised in New Zealand White rabbits against non-B, non-T acute lymphocytic leukemia (ALL) cells coated with antilymphocyte serum. Following minimal absorption with chronic lymphocytic leukemia (CLL) cells, the antiserum reacted mainly with non-B, non-T ALL cells. The following numbers of patients had leukemia cells that reacted with the ALL antisera: 13 of 18 with ALL, 3 of 27 with acute myelocytic leukemia, 1 of 8 with chronic myelocytic leukemia (CML), and 0 of 12 with CLL. The positive CML was a patient in CML blast crisis. Normal peripheral blood B- and T-lymphocytes and normal bone marrow were negative. Reactions of the anti-ALL serum (136K) were compared with the reactions of a rabbit anti-B-cell antiserum (63K) that reacted with approximately 70% of leukemia cells. Cultured lymphoblastoid cell lines from normal donors were negative by both cytotoxicity and immunofluorescence tests. However, by immunofluorescence testing, 8 of 17 known malignant lines from a variety of lymphoproliferative disorders were positive; 4 of these lines were of T-cell origin. By immunoprecipitation and polyacrylamide gel electrophoresis, the ALL antigen appeared to consist of a single polypeptide chain of approximately 98,000 daltons. The anti-ALL antiserum was not cytotoxic for normal myeloid stem cells (colony-forming units).
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PMID:Acute lymphocytic leukemia-associated cell membrane antigen. 30 2


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