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)

Eleven patients with acute myeloid leukemia (AML) were studied with a technique that simultaneously identifies cytogenetic abnormality and immunophenotype of the same mitotic cell. To determine the cell lineages with abnormal karyotypes, monoclonal antibodies in the alkaline phosphatase-antialkaline phosphatase (APAAP) detection procedure were used. The granulocytic/monocytic lineage was involved in the leukemic process in all 11 patients. In nine patients, we also detected abnormal karyotypes in the erythrocytic and/or megakaryocytic lineages. All four patients with secondary AML showed involvement of the granulocytic/monocytic, erythrocytic, and megakaryocytic lineages into the leukemic process, as compared with five of seven patients with de novo AML. One patient with trisomy 8 showed erythrocytic participation in the leukemic process, but in another the erythrocytic lineage had only normal karyotypes. Thus, in AML, the chromosome abnormalities apparently usually originate at the multipotent progenitor cell stage, since in addition to granulocytic/monocytic lineages, erythrocytic and/or megakaryocytic lineages were also involved. Some patients show involvement of granulocytic/monocytic lineages only, however, suggesting that the target cell belongs to a more mature committed progenitor cell stage.
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PMID:Immunophenotype of mitotic cells with clonal chromosome abnormalities demonstrating multilineage involvement in acute myeloid leukemia. 822 5

Sequential analysis of blast cell chromosomes in 98 cases of acute lymphoblastic leukemia (ALL) disclosed entirely different karyotypes for nine patients at the time of relapse. The presenting clinical, immunophenotypic, and cytogenetic features of this subgroup were similar to those of the 89 patients without major karyotypic shifts. The median length of initial remissions in these nine patients, all of whom received intensive multiagent therapy, was 24 months (range, 6 to 35); responses to subsequent treatment have been uniformly poor. Prominent cytogenetic changes included a gain of modal chromosome numbers in five cases, a loss of chromosomes in two, and the acquisition of an 11q23 rearrangement in three. We propose several different mechanisms to account for these findings. In one, the presence of an entirely different ALL karyotype at relapse may represent induction of secondary leukemia analogous to the well-described entity of epipodophyllotoxin-related secondary acute myeloid leukemia (AML).
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PMID:Cytogenetically different leukemic clones at relapse of childhood acute lymphoblastic leukemia. 832 12

Forty-seven patients with poor-prognosis myeloid leukemias received induction therapy with high-dose cytosine arabinoside (HDara-C), 1.5-3.0g/m2 for 8-10 doses, and mitoxantrone (DHAD), 12-15 mg/m2 for 3 doses. Complete remissions were achieved in 21 [45%, 95% confidence interval (CI) 30.2-59.9%] of the patients, including 11 of 14 with acute myelogenous leukemia (AML) in first relapse (79%, 95% CI 49.2-95.3%), 4 of 8 with refractory anemia with excess blasts in transformation (RAEBiT) (50%, 95% CI 15.4-84.6%), and 4 of 6 (67%, 95% CI 22.3-95.7%) previously untreated elderly AML patients. Patients with secondary AML and advanced chronic myelogenous leukemia had a very low response rate. The incidence of reversible toxicity was low and only 3 treatment-related deaths occurred. After reinduction, 8 of 9 AML patients < or = 60 years of age were ultimately able to undergo intensive therapy and either autologous 4-hydroperoxycyclophosphamide-purged bone marrow (7 patients) or peripheral blood stem cell (1 patient) transplantation with satisfactory hematological recovery. We conclude that HDara-C and DHAD is an effective antileukemic regimen in selected AML and RAEBiT patients, and that its use may allow subsequent successful autologous BMT in appropriate patients.
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PMID:Chemotherapy with high-dose cytosine arabinoside and mitoxantrone for poor-prognosis myeloid leukemias. 840 19

In this review we have considered the role of ABMT for the acute leukemias. It is apparent from data around the world that ABMT is a curative therapy for patients with both AML and ALL after primary treatment failure. Other than allogeneic BMT, ABMT may be the only curative therapy following relapse, especially in AML. The role of ABMT in first CR is less well defined. There are few data to support the widespread use of ABMT in first CR for ALL. Moreover, the improved survival of adults with ALL with current intense multiagent regimens will probably obviate the need to continue clinical trials of ABMT for ALL in first CR. For patients with AML in first CR, however, it seems that ABMT may well lead to improved rates of DFS compared with chemotherapy alone. Almost every published report describes better DFS for patients who underwent ABMT compared with historical or contemporary controls who were treated with chemotherapy. One note of caution is that as chemotherapy evolves, the increment in survival currently observed from ABMT may diminish, thus rendering ABMT less obviously necessary. On the other hand, from an economic standpoint, ABMT could prove to be cost-effective, because a short, intense treatment that is effective may prove to be less costly than the current extended period of chemotherapy. Because ABMT is becoming safer, it would seem reasonable to continue its use in patients with AML at high risk for relapse (secondary AML, adverse cytogenetics, and so on) while awaiting the outcome of the randomized clinical trials currently underway that are seeking to define the role of ABMT for the general population of patients with AML after initial remission is achieved. Meanwhile, further definition of the relative value of the various purging regimens, preparative regimens, and adjunctive therapy (i.e., IL-2, mAb) warrants study.
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PMID:Autologous bone marrow transplantation for adult acute leukemia. 844 59

A total of 74 patients with poor risk AML (median age 36.7 years, range 4.5-60.6) received a single course of a regimen including mitoxantrone (6 mg/m2 intravenous bolus daily, days 1 to 6), etoposide (80 mg/m2 intravenous over 1 h, daily, days 1 to 6) and intermediate-dose Ara-C (1 g/m2 over 6 h, daily days 1 to 6). 28 patients had failed initial remission induction with daunorubicin and conventional doses of Ara-C, 16 patients had secondary AML and 30 patients had relapsed from initial remission (five within six months, 15 over six months and ten after autologous or allogeneic bone marrow transplantation). Overall 41/74 patients (55%) achieved complete remission, 26 (35%) had resistant disease and seven (10%) died of infection during marrow hypoplasia. A 4-day course of the same regimen was given as consolidation to patients in complete remission. Subsequent antileukemic therapy was individualized. Profound myelosuppression and pancytopenia were universal resulting in fever or documented infections in almost 100% of patient; major hemorrhagic complications occurred in 39% of patients. Extrahematologic toxicity was mild to moderate consisting mostly of nausea and vomiting, oral mucositis and transient liver and cardiac dysfunction. We conclude that the MEC combination chemotherapy program seems to be an effective antileukemic regimen for secondary and advanced AML, with acceptable toxicity.
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PMID:Mitoxantrone, etoposide and intermediate-dose Ara-C (MEC): an effective regimen for poor risk acute myeloid leukemia. 846 33

Expression of the bcl-2 oncoprotein by AML blasts has previously been demonstrated to be heterogenous with high levels of bcl-2 expression being associated with a low complete remission rate and poor survival. We have quantified bcl-2 expression in AML blasts in relation to expression of the CD34 antigen and in comparison to CD34-positive cells from normal bone marrow. When expressed as molecules of equivalent soluble fluorochrome (MESF) per cell. AML blast cell bcl-2 expression varied from 11.1 to 99.9 x 10(3) (median 39.4 x 10(3), n = 56) with 28.5% of patients expressing high MESF values (> 50 x 10(3)) and 16% of patients expressing low MESF values (< 20 x 10(3), the remainder expressing intermediate values. There was no significant difference between intensity of bcl-2 expression and FAB classification in the de novo AML cases; and there was no significant differences between de novo and secondary AML cases. Blasts from CD34+ AML patients expressed significantly higher levels of bcl-2 (mean MESF 43.6 x 10(3), n = 36) than CD34- AML patients (mean MESF 31.7 x 10(3), n = 19). In five cases of CD34+ AML, bcl-2 expression was determined on purified CD34+ and CD34- blast cell populations. In all cases CD34+ blasts were found to express significantly higher bcl-2 MESF values compared to the CD34- fraction. Purified CD34+ cells from normal bone marrow consistently expressed high levels of bcl-2 (MESF > 75 x 10(3), n = 4), which was comparable to that found on CD34+ AML cells. Our results suggest that the poor prognosis previously associated with AML blasts expressing the CD34 antigen may in part be related to high expression of bcl-2. Also the ability to measure bcl-2 in AML blasts quantitatively by flow cytometry and to categorize patients into discrete groups may be of value as a prognostic indicator in AML.
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PMID:Comparative quantitative expression of bcl-2 by normal and leukaemic myeloid cells. 854 78

The National Cancer Institute (NCI) recently alerted clinicians to the possibility that patients, entered on a NCI-sponsored cooperative group trial of doxorubicin and cyclophosphamide adjuvant therapy for breast cancer, may be at high risk of developing secondary acute myeloid leukemia (AML). Secondary AML following standard doses of doxorubicin and cyclophosphamide is uncommon, suggesting that the high risk on this trial may result from its higher-than-standard doses of chemotherapy. However, the cases of secondary AML were characteristic of the type that follows treatment with topoisomerase II-active agents, especially etoposide, and this type of secondary AML is rare after treatment with either cyclophosphamide or doxorubicin at any dose. We raise the possibility that another component of this trial, hematopoietic growth factors to decrease the toxicities related to myelosuppression, may play an important role in the development of secondary AML. Growth factors not only stimulate hematopoietic progenitor proliferation and differentiation, they also regulate hematopoietic cell survival by interfering with apoptosis (programmed cell death). Inhibition of apoptosis by a variety of genetic factors is an important mechanism of oncogenesis, and appears to be the initiating event in some malignancies. Growth factor-mediated suppression of the apoptotic death of hematopoietic progenitors damaged by chemotherapy may contribute to their leukemic transformation.
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PMID:Are growth factors leukemogenic? 855 25

The aims of this study were to analyze the characteristics and outcome of patients with secondary acute promyelocytic leukemia (APL) and compare them to those with primary APL. One hundred and thirteen patients referred to our service with a diagnosis of APL were reviewed. Fourteen were classified as secondary APL. Nine were induced with chemotherapy, and five with all-trans retinoic acid plus chemotherapy. Pretreatment characteristics, response to therapy and outcome of primary vs secondary APL were compared by standard statistical methods. Secondary APL constituted 12% of all APL cases. Patients with secondary APL were significantly older (median age 56 vs 36 years; P < 0.01) and had a lower incidence of hypofibrinogenemia (P < 0.01) than those with primary APL. The complete response (CR) rates were similar with secondary vs primary APL (CR rates 79 vs 69%), as were CR duration and survival. The CR rates at 5 years were 57 and 45%, respectively(P not significant), and the survival rates 37 and 35%, respectively (P not significant). The incidence of secondary APL within APL disease (12%) was similar to the incidence of secondary acute myeloid leukemia (AML) in karyotypes not known to be therapy-related (diploid, t(8;21), inversion 16: incidences 9 to 12%), but was significantly lower than in karyotypes known to be therapy-related (chromosome 5 or 7 abnormalities, 11q; incidences 30 and 33%). We conclude that secondary APL has general characteristics and outcome similar to primary APL. it is more likely a second primary rather than therapy-related AML, and should be treated in a manner similar to primary APL.
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PMID:Secondary acute promyelocytic leukemia. Characteristics and prognosis of 14 patients from a single institution. 855 33

Survivors of child acute lymphoblastic leukaemia (ALL) have a higher than expected risk of developing secondary acute myeloid leukaemia (AML). The glycophorin A (GPA) mutation assay measures the frequency of variant NO and NN erythrocytes in MN heterozygotes. A raised variant frequency (Vf) has been shown in patients treated with chemotherapy known to be at risk of secondary leukaemia. ALL patients were investigated for increased Vf using the GPA assay. Vfs at diagnosis were not significantly different from controls (NO Vf P = 0.193; NN Vf P = 0.790). During treatment Vfs increased significantly (No Vf P = 0.001; NN Vf P = 0.001). NO Vf returned to control values (P = 0.169) within 5 years from diagnosis but NN Vf remained significantly raised (P = 0.014). Three study patients developed secondary AML. At diagnosis of AML all three had significantly increased Vf. The first had a significantly raised Vf at routine follow-up 19 years following diagnosis of ALL then developed AML 3.5 years later. The second had a significantly raised NN Vf at diagnosis of ALL indicating possibly prior exposure to a mutagen or defective DNA repair involving erythroid stem cells. We conclude that a raised Vf detected by the GPA assay can act as a marker for the development of secondary induced leukaemia and can be used to screen individuals at a known high risk of this complication.
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PMID:Glycophorin A mutations and risk of secondary leukaemia in patients treated for childhood acute lymphoblastic leukaemia. 861 43

Three patients with secondary acute leukaemia after treatment with topoisomerase II inhibitor agents are described. Two patients had acute myeloid leukaemia (AML). FAB M5a, one had pro-B-acute lymphoblastic leukaemia (ALL). The interval between initiation of chemotherapy and the onset of secondary acute leukaemia was 19-20 months. 11q23 rearrangements were detected in all cases. They were due to translocations t(11;19) (q23;p13.3), t(11;16)(q23;p13) and t(4;11)(q21;q23), respectively. Fluorescence in situ hybridization (FISH) with Yeast Artificial Chromosome (YAC) probe 13HH4 spanning the ALL-1 gene on 11q23 confirmed that in each case the ALL-1 gene had been disrupted by the translocations. The study underlined the relationship between the development of secondary acute leukaemias with 11q23 rearrangement and previous chemotherapy with topisomerase II inhibitor agents. So far, however, only six adult patients with secondary ALL with t(4;11) after treatment with topoisomerase II inhibitor agents have been reported. All with t(4;11) mostly occurs in infants or young children. Our patient received epirubicin continuously for >19 months. This indicates that both myeloid and lymphoid leukaemias with involvement of the ALL-1 gene can be induced by exogenous agents, especially topoisomerase II inhibitors. Thus they may have a common biological background. This hypothesis was substantiated by means of combined immunophenotyping and FISH (FICTION). In the case of AML M5a with t(11;19), the tumour cells with ALL-1 rearrangement expressed CD34. Moreover, the pro-B-ALL with t(4;11) was CD34 positive. These findings suggest that the cell of origin of secondary AML and ALL with 11q23 rearrangement is an immature haemopoietic progenitor cell.
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PMID:Secondary acute leukaemias with 11q23 rearrangement: clinical, cytogenetic, FISH and FICTION studies. 861 34

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