UMLS:C0026986 - FACTA Search

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Query: UMLS:C0026986 (myelodysplastic syndrome)
14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Administration of alkylating agents (Alk), topoisomerase II inhibitors (Topo II) and radiotherapy (RT) can result in therapy-related myelodysplastic syndrome or acute myelogenous leukaemia (t-MDS/t-AML), the optimal treatment for which is allo-SCT. A retrospective review was performed of 24 patients who underwent related- or unrelated-donor SCT for t-MDS/t-AML at our institution. Eight patients remain alive and in continuous remission (median follow-up 54 months (range, 12-161)) with estimated 5-year EFS being 30% (95% confidence intervals 16-58%). Corresponding actuarial risks of relapse and non-relapse mortality (NRM) are 39% (19-60%) and 30% (13-50%), respectively. EFS was 40% in Alk/RT-related t-MDS/t-AML and 11% in Topo II-related t-MDS/t-AML (P=0.05), with an increased risk of relapse in the latter (56 vs 29%, respectively (P=0.05)). In multivariate analysis, development of acute GVHD (P=0.009) and Topo II-related t-MDS/t-AML (P=0.018) were associated with inferior EFS. Patients with acute GVHD had an increased risk of NRM (P=0.03) whereas risk of relapse was higher for patients of advanced age (P=0.046) and for patients who underwent bone marrow (vs blood) SCT (P=0.032). Allo-SCT can result in long-term survival for individuals with t-MDS/t-AML although outcome in Topo II-related t-MDS/t-AML patients remains suboptimal.
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PMID:Predictors of outcome following myeloablative allo-SCT for therapy-related myelodysplastic syndrome and AML. 1867 72

Translocations and other rearrangements of the MLL gene at chromosome band 11q23 are biologically and clinically important molecular abnormalities in infant acute leukemias, leukemias associated with chemotherapeutic topoisomerase II poisons and, less often, acute leukemias in adults or myelodysplastic syndrome. Depending on the disease and the regimen, MLL-rearranged leukemias may be associated with inferior prognosis, and MLL rearrangements with some of the more than 60 known MLL-partner genes confer especially adverse effects as response to treatment (Blood 108:441-451, 2006). MLL rearrangements are usually evident as overt balanced chromosomal translocations by conventional cytogenetic analysis but up to one-third are cryptic rearrangements and occur in leukemias with del(11)(q23), a normal karyotype, or trisomy 11, the latter two of which sometimes are associated with partial tandem duplications of MLL itself (Proc Natl Acad Sci USA 97:2814-2819, 2000; Proc Natl Acad Sci USA 94:3899-3902, 1997). In addition, subsets of MLL rearrangements are complex at a cytogenetic level and/or molecular level, and fuse MLL with two different partner genes. Rapid and accurate methods to identify and characterize genomic breakpoint junctions and fusion transcripts resulting from the many types of MLL rearrangements are essential for risk group stratification, treatment protocol assignments, new partner gene discovery, understanding leukemia etiology and pathogenesis, and elucidating the impact of less common MLL-partner genes on biology and prognosis. Due to the vast heterogeneity in partner genes, typical gene-specific PCR based methods are not practical, especially when cytogenetics are normal or do not suggest involvement of a known partner gene of MLL. We have advanced seven different panhandle PCR based methods for cloning 5'-MLL-partner gene-3' and 5'-partner gene-MLL-3' genomic breakpoint junctions and identifying 5'-MLL-partner gene-3' fusion transcripts, all of which employ a stem-loop template shaped schematically like a pan with a handle and amplify the template without knowledge of the unknown partner sequence using primers all derived from MLL alone.
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PMID:Panhandle PCR approaches to cloning MLL genomic breakpoint junctions and fusion transcript sequences. 1927 75

Radiation induced acute myeloid leukemia (AML) was recognized a century ago, soon after mankind found radiation. Atomic bomb survivors developed de novo AML with relatively short latency with very high frequency. By contrast, excess occurrence of myelodysplastic syndrome (MDS) as well as solid tumors was found decades late. This difference may be due to etiology that many de novo AML patients harbor chimeric leukemogenic genes caused by chromosomal translocations, while MDS patients rarely carry chimeras. In addition, epigenetic change would play important roles. Therapy related leukemia is mainly caused by topoisomerase II inhibitors that cause de novo AML with an 11q23 translocation or by alkyrating agents that induce MDS/AML with an AML1 point mutation and monosomy 7.
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PMID:[Radiation-induced and therapy-related AML/MDS]. 1986 Jan 83

Therapy-related myeloid neoplasms (t-MN) include acute myeloid leukemias and myelodysplastic syndromes arising in patients who have been treated with chemotherapy, radiation therapy, immunosuppressive agents or after documented exposure to environmental carcinogen. t-MN are defined according to the primary treatment and the corresponding genetic and molecular lesions. Chromosome(s) 7 and/or 5 monosomies or deletions are typical of alkylating agent-induced AML, while balanced translocations involving chromosome bands 11q23 and 21q22 are associated to preceeding therapy with DNA-topoisomerase II inhibitors. Antimetabolites, and in particular the immunosuppressive agents azathioprine and fludarabine, have also been recently associated to t-MN. Leukemias developing after benzene exposure are similar to t-MN and are characterized by chromosomal aberrations, which have been also observed among otherwise healthy benzene-exposed workers. Individual predisposing factors, including polymorphisms of detoxification and DNA-repair enzymes have been identified. Two genetic variants in key metabolizing enzymes, myeloperoxidase and NAD(P)H:quinone oxidoreductase, have been shown to influence susceptibility to benzene hematotoxicity. Combination of polymorphisms impairing detoxification and DNA repair may significantly increase therapy-related myeloid neoplasm risk. Among hematological malignancies, long-term survivors of Hodgkin's lymphoma are exposed to an increased t-MN risk, particularly when receiving MOPP-based and escalated-BEACOPP regimens, and when alkylators are combined to radiotherapy. Patients with lymphoma are at highest risk if total body irradiation followed by autologous stem cell transplantation is used as rescue or consolidation. The addition of granulocyte-colony stimulating factor (G-CSF) and radiotherapy plays a significant role in t-MN following treatment of childhood acute lymphoblastic leukemia. In solid tumors, treatment for breast cancer and germ-cell tumors has been associated with a 1-5% lifetime risk of t-MN.
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PMID:Incidence and susceptibility to therapy-related myeloid neoplasms. 2002 17

Chemoradiotherapy has improved the outcome of patients with esophageal cancer. Although a sufficiently long-time survival has resulted in the increase of several treatment-related late toxicities, little is still known about the incidence of secondary malignancies. In our hospital, 348 patients with esophageal cancer received chemotherapy consisting of nedaplatin and 5-fluorouracil and concurrent irradiation. Median and average follow-up durations were 8 and 21 months (1-92), respectively. Four patients developed leukemia after 19-48 months of follow-up. Two patients were diagnosed with overt leukemia from myelodysplastic syndrome presenting a complex karyotype, including the deletion of chromosome 5 or 7. Notably, one patient showed an additional chromosomal abnormality with t(9;22)(q34;q11). Other patients developed acute myeloid leukemia with t(9;22)(q34;q11) and Burkitt leukemia with t(8;14)(q24;q32). All patients eventually succumbed to leukemia. Platinum and fluorouracil have shown relatively lower risks for secondary malignancies in comparison with alkylating agents and topoisomerase II inhibitors. Especially, nedaplatin has never been described to introduce secondary neoplasms. Our report supports the idea that the concurrent administration of radiotherapy with these agents affects the risk of leukemia. Interestingly, rare balanced chromosomal abnormalities were observed in the present cases, thus providing new insights into the leukemogenesis of therapy-related leukemia.
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PMID:Therapy-related leukemia following chemoradiotherapy for esophageal cancer. 2122 64

Therapy-related myelodysplastic syndrome (t-MDS) and therapy-related leukemia (TRL) are reported increasingly often, and we report two cases of T-MDS after concurrent chemoradiotherapy (CCRT) with oral cancer. Patients underwent CCRT with cisplatin (CDDP) or carboplatin (CBDCA). The interval between primary CCRT and t-MDS was 11 months in 1 case and 14 years in the other. Chromosomal analysis indicated abnormal karyotypes. Platinum has a relatively lower t-MDS risk than alkylating agents or topoisomerase II inhibitors, but our experience supports concurrent use of radiotherapy with platinum affects the risk of t-MDS. If pancytopenia is detected after CCRT, bone marrow and cytogenetic examinations should be conducted to rule out T-MDS.
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PMID:[Two cases of therapy-related myelodysplastic syndrome after concurrent oral cancer chemoradiotherapy]. 2065 95

Hodgkin's disease has been treated mainly with two chemotherapy schedules, MOPP (nitrogen mustard, Oncovin, procarbazine and prednisone), which includes alkylating agents, and ABVD (adriamycin, bleomycin, vinblastine and dacarbazine), which includes topoisomerase II inhibitors, either with or without radiation therapy. Due to the types of agents used, patients with Hodgkin's disease often develop secondary leukemias. The alkylating agents included in the MOPP scheme were the first drugs associated with the development of therapy-related myelodysplastic syndrome (t-MDS) and acute myeloid leukemia (t-AML); both entities are the result of the clonal selection of cells with accumulated genomic lesions induced by antineoplastic therapy. In patients who developed t-MDS and t-AML, eight alternative routes with specific cytogenetic and molecular changes have been identified, and the routes are related to the type of therapy, alkylating agents or DNA topoisomerase II inhibitors. At the cytogenetic level, patients treated with alkylating agents show deletion 5q/monosomy 5 and deletion 7q/monosomy 7; in contrast, those who were treated with topoisomerase II inhibitors show 11q23 translocations involving the MLL gene. At the molecular level, there are two types of mutations: Class I, which alter the RAS-BRAF signal transduction pathways and increase cell proliferation; Class II, which disrupt genes that encode transcription factors and NPM1 that are involved in cell differentiation, and the inactivation of p53 tumor suppressor gene. Knowledge of the genetic alterations in these conditions is important for the classification, treatment and prognosis of patients as well as essential for increasing the knowledge of the biology of these diseases, which leads to identifying potential therapeutic targets.
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PMID:Genetic abnormalities in leukemia secondary to treatment in patients with Hodgkin's disease. 2157 43

Treatment for a pre-existing condition using chemotherapy, radiation therapy, immunosuppressive therapy, or a combination of these modalities may lead to the devastating complication of therapy-related myelodysplastic syndrome or acute myeloid leukemia (t-MDS/t-AML), collectively known as therapy-related myeloid neoplasm (t-MN). This disorder arises as a direct consequence of mutational events induced by the primary treatment. The outcomes for these patients have been historically poor compared to people who develop AML de novo. Currently comprising 10-20% of all cases of AML, t-MN is relatively resistant to conventional leukemia therapies, and is associated with s ort survival times. Median life expectancy from diagnosis is about 8-10 months in most series. Although the spectrum of cytogenetic abnormalities in t-AML is similar to AML de novo, the frequency of unfavorable cytogenetics, such as a complex karyotype or deletion or loss of chromosomes 5 and/or 7, is considerably higher in t-MN. Two distinct groups of patients with t-MN have been described. The more common subtype, seen in about 75% of patients, typically occurs 5-7 years after first exposure to alkylating agents or radiation, is often preceded by a myelodysplastic syndrome (MDS), and is frequently accompanied by clonal cytogenetic abnormalities such as the loss of all or part of chromosomes 5 or 7. Mutations of the P53 tumor suppressor gene are also common. The risk is related to total cumulative exposure over time to alkylating agents. In contrast, among individuals who develop t-AML after treatment with topoisomerase II inhibitors, the latency period to the development of t-AML is often only 1-3 years, antecedent MDS is rare, and gene rearrangements involving MLL at 11q23 or RUNX1/AML1 at 21q22 are common. It is now well recognized that APL and other subtypes of AML with balanced translocations sometimes occur as therapy-related myeloid neoplasms (t-MN) in patients who have previously received cytotoxic therapy or ionizing radiation therapy (RT). The most of this review will focus on these "good risk" leukemias, i.e. those with APL or inv(16)/t(16;16) or t(8;21).
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PMID:Prognosis and therapy when acute promyelocytic leukemia and other "good risk" acute myeloid leukemias occur as a therapy-related myeloid neoplasm. 2186 18

Therapy related myeloid malignancies are an increasingly recognized treatment complication in patients undergoing therapy for multiple myeloma. The main predisposing factors are the alkylating agents, topoisomerase II inhibitors and radiotherapy, but recently questions have been raised regarding the immunomodulatory agent lenalidomide. Little is known about the new antimyeloma agents in the context of therapy related myeloid malignancies. The duration of treatment and the time from diagnosis are the main contributing factors in alkylating induced myeloid malignancies which occur 5-10 years after treatment, chromosome 5 and 7 abnormalities being the characteristic finding. High dose therapy (HDT) does not seem to be a major contributing factor per se in multiple myeloma. In a number of large published series, all the factors related with therapy-induced myelodysplasia were defined prior to HDT. Topoisomerase II inhibitors induce mainly acute leukemias which invariably correlate with dysregulation of the MLL gene. Radiotherapy causes therapy related myelodysplasia if applied in bone marrow producing areas, especially if combined with chemotherapy. Therapy related myeloid malignancies generally herald a poor prognosis. Karyotypic abnormalities seem to be the main prognostic factor. In all cases the risk for therapy related myeloid malignancies drops sharply by 10 years after the treatment.
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PMID:Therapy-related myeloid malignancies in myeloma. 2211 Aug 97

Treatment-related myelodysplastic syndrome (t-MDS) and treatment-related acute myelogenous leukemia (t-AML) represent rare secondary events in patients with primary tumors of the nervous system and predominantly affect those treated with alkylating agents or topoisomerase II inhibitors. Temozolomide has become the standard chemotherapeutic agent for malignant gliomas. The emergence of this alkylating agent with little acute toxicity or cumulative myelosuppression has led to off-label protracted chemotherapy for many patients with malignant and even low-grade infiltrative gliomas, raising concern for increased risk of t-MDS/t-AML in the few long-term survivors. On the basis of an extensive literature search, we provide a discussion of epidemiology, pathogenesis, clinical presentation, diagnosis, and therapy of these disorders. t-MDS/t-AML remain rare complications of chemotherapy in patients with primary brain tumors, and the vast majority of patients die of their primary neoplasm. Prospective randomized studies with long-term follow-up are required to accurately assess the risk of t-MDS/t-AML; however, unless survival in the most common gliomas substantially increases, t-MDS/t-AML incidence will likely remain low in this patient population.
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PMID:Treatment-related myelodysplasia in patients with primary brain tumors. 2245 28

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