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)

Complete remission (CR) rates of 80% are achieved with the AML-BFM protocols but one third of patients relapse within the first three years. There are few reports of treatment of relapsed childhood AML, and these deal with the evaluation of new drugs for frontline therapy. We performed a retrospective analysis to investigate how patients previously treated with the AML-BFM-83 protocol were treated after relapse and how many long term remissions were achieved. 48 of 139 patients relapsed after having achieved complete remission with the AML-BFM-83 protocol which consists of continous infusion of ARA-C 100 mg/m2 day 1-2, ARA-C 200 mg/m2 day 3-8, Daunorubicin 60 mg/m2 day 3, 4, and 5, and VP-16 150 mg/m2 day 6, 7, and 8, and an 8 week consolidation therapy consisting of Prednisolone, Thioguanine, Vincristine, ADR, ARA-C, Cyclophosphamide, intrathecal ARA-C and cranial irradiation followed by maintenance therapy. Duration of first remission ranged from 1.5 months to 66.3 months. Excluding 5 children with either isolated or combined extramedullary relapses and another 4 patients for missing data, 39 children were evaluable. 20 children received no therapy or palliative therapy while 16 patients received chemotherapy and another 3 children were transplanted in relapse. Although 9 different intensive chemotherapy regimens were used for reinduction, a high number (12 of 16 = 75%) of second complete remissions was achieved. Several therapeutic options were used to maintain a second remission: regular maintenance therapy (7 patients), allogeneous bone marrow transplantation (BMT) (2 patients), autologous BMT (3 patients).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Treatment of recurrence of acute myeloid leukemia in childhood. A retrospective analysis of recurrence in the AML-BFM-83 study]. 151 61

Thirty adult patients with acute myelogenous leukemia (AML) in remission were treated with hyperfractionated total body irradiation, VP-16, and cyclophosphamide followed by infusion of autologous bone marrow purged with 4-hydroperoxycyclophosphamide and VP-16. Fifteen patients were transplanted in first remission (R1), 13 in second remission (R2), and two in third remission (R3). All patients had hematopoietic engraftment. The median time to achieve a white blood cell count of 1.0 x 10(9)/l and a neutrophil count of 500 x 10(6)/l was 32 days. The median time to achieve an unsupported platelet count of 50 x 10(9)/l was 70 days. There were four transplant-related deaths, all in patients in R2. Ten patients have relapsed, including both patients transplanted in R3. The disease-free survival (DFS) of all patients is 52%, median follow-up not yet reached. Although the number of patients in each group is small and follow-up is limited, there is a trend toward improved actuarial DFS in patients transplanted in R1 compared with patients transplanted in R2 (72 vs 39%; p = 0.081). Use of VP-16 in the conditioning regimen as well as in the purging procedure is feasible in the treatment of patients with AML.
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PMID:Autologous bone marrow transplantation for acute myelogenous leukemia using 4-hydroperoxycyclophosphamide and VP-16 purged bone marrow. 152 1

Eighteen adult patients under 55 years of age with acute myelogenous leukemia (AML) who entered remission with induction chemotherapy (AMSA-OAP) received two remission intensification cycles. The first intensification used amsacrine and high dose ara-C (AMSA-HDAC), and the second intensification utilized high dose cyclophosphamide, BCNU and VP-16 (CBV) plus unpurged autologous bone marrow transplantation. This double intensified program features two highly active, non-cross-resistant intensification regimens. We observed a 56% long-term disease free survival rate in this group of patients followed for a minimum time of 40 months, with very tolerable toxicity and no transplantation-related deaths. The bone marrow collected after AMSA-HDAC probably contained very low numbers of leukemic cell (in vivo purge). A multivariate logistic regression model may better define the patient population that benefits from this regimen. If these promising findings are confirmed with larger, randomized studies, this treatment strategy could be used in newly diagnosed patients with AML.
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PMID:Double intensification with amsacrine/high dose ara-C and high dose chemotherapy with autologous bone marrow transplantation produces durable remissions in acute myelogenous leukemia. 169 35

Among 35 patients with relapsed or refractory acute myelogenous leukemia (AML) who received salvage chemotherapy, 28 were treated with mitoxantrone (7.5 mg/m2/d intravenously [IV] over 1 hour for 5 days) and etoposide (VP-16) (2 g/m2 over 4 days either as a daily infusion or as two daily doses). Seven patients received mitoxantrone (6 mg/m2/d for 5 days) and VP-16 (1500 mg/m2 over 3 days). The median duration of the initial complete remission (CR) was 6 months and 83% of the patients had initial CR that lasted 12 months or less. Forty-six percent of the patients were undergoing a second or subsequent salvage attempt. Eight patients (23%) achieved CR; seven of these CR were obtained after one course of therapy. Twelve patients (33%) died and 15 patients (42%) had disease that was resistant to treatment. Patients undergoing a first salvage attempt had a higher incidence rate of CR than those undergoing a second or subsequent salvage attempt (37% versus 6%; P = 0.03). CR rates were also higher in patients with a favorable (translocation 8;21 or 15;17) or diploid karyotype compared with other patients (32% versus 8%; P = 0.10). The median survival time was 2 months for all patients and 8 months for patients achieving CR. Mucositis occurred in 74% of the patients and was severe in 32%. Diarrhea and rash occurred in less than 33% of the patients. Fever was noticed in all but 1 of the patients and documented infections occurred in 65% of the patients. Six patients had pancytopenia or thrombocytopenia that lasted more than 42 days from the initiation of treatment. Although mitoxantrone and high-dose VP-16 is an effective antileukemic regimen, it is associated with a high incidence of mucositis. Strategies that are used to limit mucosal damage may improve the tolerance of this combination.
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PMID:Mitoxantrone and high-dose etoposide for patients with relapsed or refractory acute leukemia. 185 68

Etoposide as a single agent is active in relapsed and refractory acute myelogenous leukemia (AML), with complete responses (CR) rates of 10% to 25%. The drug has been safely combined with cytarabine, azacytidine, vinca alkaloids, and anthracyclines, inducing remission rates of 20% to 60% in patients with previously treated AML. The experience with etoposide in acute lymphoblastic leukemia is less extensive, but the drug seems to be active in combination with cytarabine or aclacinomycin. In addition, etoposide is combined with cytarabine and anthracyclines for the primary treatment of AML. The response rates thus achieved are comparable with those obtained with standard regimens. A Phase I/II trial was initiated to study the efficacy of the NOVE combination (mitoxantrone [10 mg/m2/d, days 1 to 5] plus etoposide [100 mg/m2/d for 3, 4, or 5 days] in patients with refractory AML. The results showed that extended duration of etoposide administration is associated with higher CR rates. Overall, a CR rate of 43% was achieved in 61 patients. A sequential regimen with IDAC (idarubicin/cytarabine) and NOVE was designed for primary treatment of adult patients with AML. Cycles of IDAC or NOVE are applied depending on response. The results of the pilot study with this strategy were encouraging with 18 of 20 patients achieving CR. Further studies are under way to verify the efficacy of this strategy.
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PMID:Etoposide in acute leukemia. Past experience and future perspectives. 198 28

Etoposide (VP16-213, NSC 141540) induces a complete response (CR) in 15% to 25% of previously treated patients with acute nonlymphocytic leukemia (ANLL) when used as a single agent. Etoposide has been used successfully in combination with cytarabine, daunorubicin, and amsacrine for salvage and consolidation therapies. Previously untreated ANLL patients 15 to 70 years of age were randomly assigned to cytarabine (100 mg/m2) on days 1 to 7 plus daunorubicin (50 mg/m2) on days 1 to 3 (7-3) or to the same drugs plus etoposide (75 mg/m2) on days 1 to 7 (7-3-7). Patients achieving a CR received two consolidation courses (5-2, attenuated 7-3 or 5-2-5). Among 264 eligible patients, there was a 56% CR rate with 7-3 therapy and a 59% CR rate with 7-3-7 therapy. Remission duration was significantly improved with 7-3-7 (median, 12 months with 7-3 and 18 months with 7-3-7; P = 0.01), but survival was not. Subset analysis in patients younger than 55 years of age revealed prolonged remission (median, 12 months with 7-3 and 27 months with 7-3-7; P = 0.01) and survival (median, 9 months with 7-3 and 17 months with 7-3-7; P = 0.04) with the 7-3-7 regimen. Hematologic toxicity was similar for both regimens during induction, but significantly more severe for 7-3-7 during consolidation therapy. Etoposide is active in ANLL and prolongs remission when used in induction therapy.
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PMID:Etoposide in leukemia. 198 29

Etoposide is an important drug that has been recently incorporated with other agents in the curative treatment of patients with advanced neoplasms, including germ cell tumors, non-Hodgkin's lymphomas (NHL), and small cell lung cancer (SCLC). Etoposide demonstrates remarkable schedule dependency. A randomized comparison has shown an impressive survival difference for patients with extensive SCLC receiving a 5-day course versus those receiving a 1-day course. Because of these and previous clinical and laboratory data, etoposide is now given intravenously or orally in a 3-day to 5-day schedule. It is generally accepted that approximately 50% of the orally administered drug is absorbed. The authors have initiated several etoposide studies using an extended administration schedule, believing that a prolonged schedule may be superior to the standard 3-day to 5-day schedule. This was initially tested in a Phase I study. Results showed that etoposide (50 mg/m2/d) given over 21 days was feasible and was associated with only moderate toxicity. Several Phase II studies have been completed or are nearing completion, including studies in patients with SCLC, NHL, germ cell tumors, soft tissue sarcoma, renal carcinoma, and ovarian carcinoma. Responses have been seen in all of these groups, particularly in patients with SCLC, lymphoma, and germ cell tumors. In these groups we saw responses in patients who were clearly resistant to etoposide plus cisplatin given in a standard schedule or in some patients who were resistant to high-dose etoposide with bone marrow transplantation. Investigators at Indiana University Medical Center who studied oral etoposide in a similar fashion in patients with advanced germ cell tumors and SCLC achieved results similar to those reported here. The authors have initiated a number of combination chemotherapy programs using the chronic oral form of etoposide. These include patients with SCLC, non-small cell lung cancer, and elderly patients with high-grade and intermediate forms of NHL. In addition, chronic intravenous oral etoposide is being used in salvage approaches for patients with acute myelocytic leukemia and recurrent resistant intermediate-grade and high-grade NHL. Preliminary pharmacokinetic data suggest that a 50-mg/m2 oral dose is highly bioavailable (91% to 96%). Therefore, during a prolonged oral course at 50 mg/m2, many patients maintain a minimum plasma concentration of 1 microgram/ml. Further studies of multiple dose or continuous infusion etoposide to maintain a potentially critical plasma level are in progress. Etoposide administered in this way could represent a "new" drug because many of its features are different, and its activity spectrum may be broader.
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PMID:Chronic oral etoposide. 198 32

Pharmacologic and immunologic methods of ex-vivo bone marrow (BM) purging for acute nonlymphocytic leukemia (ANLL) were combined to augment the effect of either method alone. Etoposide (VP16; 20 to 30 micrograms/mL) with or without cytosine arabinoside (Ara C; 10 mg/mL) was used in tandem with the anti-CD33 monoclonal antibody (MoAb), MY9, chosen because CD33 is found on the stem cell pool in the majority of patients with ANLL. The agents were tested singly or sequentially, with a 1-hour incubation of the drugs preceding complement-mediated lysis using MY9. VP16 combined with Ara C killed up to 3.9 +/- 0.3 and 5.11 +/- 0.4 logs of the human ANLL cell lines HL60 and K562 at drug concentrations that killed only 1.2 +/- 0.1 logs of normal committed granulocyte/macrophage stem cells (CFU-GM). Adding a single exposure of the MY9 and complement (C') to the drug-treated cells, greater than 5.4 logs of HL60 were killed. Similar to other pharmacologic agents, no differential kill for clonagenic leukemic cells (colony-forming unit-leukemia; CFU-L) from patients with ANLL was seen for drug only treated blasts versus normal CFU-granulocyte-macrophage (CFU-GM), with less than 1 log CFU-L kill at drug concentrations that spared 1 log of CFU-GM. Similarly, only 1.1 +/- 0.3 logs of ANLL CFU-L were eliminated using MY9 and C'. However, with the sequential VP16/Ara C----MY9 + C' treatment, synergy was demonstrated and 2.6 +/- 0.3 logs of CFU-L were eliminated. Because CD33 is also found on the normal CFU-GM pool, two-stage long-term BM cultures were performed to determine pluripotent stem cell elimination by the drug/MoAb purging combination. No difference of CFU-GM or BFU-E production at 4 to 6 weeks of culture for VP16/Ara C, MY9 + C', or VP16/AraC----My9 + C' treated cells was seen compared with untreated controls indicating sparing of early progenitor cells. Sequential ex vivo treatment of human ANLL CFU-L with VP16/Ara C followed by complement-mediated lysis using MY9 synergistically kills CFU-L while sparing early normal hematopoietic progenitor cells, and thus may be a more effective way to purge BM than either alone.
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PMID:Anti-CD33 monoclonal antibody and etoposide/cytosine arabinoside combinations for the ex vivo purification of bone marrow in acute nonlymphocytic leukemia. 198

Single-agent etoposide (VP16-213, NSC 141540) induces complete response (CR) in 15% to 25% of previously treated patients with acute nonlymphocytic leukemia (ANLL). Etoposide has been used successfully in combination with cytarabine, daunorubicin, and amsacrine as salvage and consolidation therapy. Patients aged 15 to 70 years with previously untreated ANLL were randomized to therapy with either 7-3 (cytarabine 100 mg/m2/d days 1 to 7 and daunorubicin 50 mg/m2/d days 1 to 3) or 7-3-7 (7-3 plus etoposide 75 mg/m2/d days 1 to 7). Patients achieving CR received two consolidation courses of the same drugs for shorter duration (5-2 or 5-2-5). Of 264 eligible patients, 7-3 induced CR in 56%, 7-3-7 in 59%. Remission duration was significantly improved with 7-3-7 (median, 12 months 7-3, 18 months 7-3-7, P = .01) but not survival. Subset analysis in patients under 55 years of age revealed prolonged remission (median, 12 months 7-3 v 27 months 7-3-7, P = .01) and survival (median, 9 months 7-3 v 17 months 7-3-7, P = .04) with 7-3-7. Hematologic toxicity was similar during induction but significantly more severe in consolidation. Etoposide is active in ANLL and prolongs remission when used as induction therapy.
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PMID:Etoposide in the management of leukemia: a review. 199 36

We report the results of a preclinical study comparing four different purging protocols using a promyelocytic human cell line HL-60 and myeloid leukemic progenitor cells (colony-forming unit-leukemic [CFU-L]) from acute myelogenous leukemia (AML) patients assayed in semisolid culture. We studied the antileukemic effect of (1) Single-cycle complement-mediated lysis by two different monoclonal antibodies (MoAbs) (M195 [CD33] and F23 [CD13] 40 micrograms/mL), reactive with distinct antigens found on early myeloid cells and monocytes, used alone and in combinations; (2) 4-Hydroperoxycyclophosphamide (4-HC) (80 mumol/L or 100 mumol/L) alone; or (3) combined with VP-16 (5 micrograms/mL) and (4) a cocktail of 1 through 3 as above (combined immunochemotherapy). More than 4 logs of HL-60 tumor cell elimination were observed after 1 hour of incubation with both MoAbs plus 4-HC + VP-16 while the single treatment (immunotherapy or chemotherapy) provided 1.5 and 3.5 logs of colony-forming inhibition, respectively. When the same protocols were tested on cryopreserved leukemic cells from eight patients with AML, we observed a mean value of CFU-L inhibition of 92.3% +/- 2.5% SD, 95.5% +/- 1.4% SD, and 99% +/- 0.8% SD after MoAbs and complement lysis, 4-HC, and 4-HC + VP-16 treatment, respectively. The combined treatment of MoAbs and 4-HC + VP-16 produced more than 3-log reduction of CFU-L colony formation. By comparison, the mean recovery of committed normal bone marrow progenitors after incubation with MoAbs and complement was 12% for CFU-granulocyte-macrophage (CFU-GM), 22.9% for burst-forming unit erythroid (BFU-E), and the recovery following 4-HC + VP-16 treatment was 4.4% for CFU-GM and 5.6% BFU-E. In subsequent experiments, highly purified CD34+ blast cells, enriched by positive selection, and stimulated in liquid culture by cytokines (interleukin-1 [IL-1], IL-3, and combination of both) or MO-conditioned medium (MoCM), demonstrated that immunochemotherapy spares hematopoietic colony-forming cells earlier than day 14 CFU-GM, in vitro.
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PMID:Autologous bone marrow transplantation in acute myelogenous leukemia: in vitro treatment with myeloid-specific monoclonal antibodies and drugs in combination. 201 6

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