Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tiazofurin, an investigational antimetabolite, is undergoing clinical evaluation in leukemia. We analyzed the data base of 198 patients entered in Phase I trials to characterize the incidence and severity of toxicities associated with tiazofurin according to dose and schedule. Severe myelosuppression occurred infrequently, and was not dose-dependent. A five day bolus schedule had a higher incidence of severe or life-threatening neutropenia than other schedules. Tiazofurin produced lymphopenia which was not dose-dependent in the range of 23-36% decrease from baseline, and the effect on lymphocyte count was generally greater than the decline in neutrophil count. Non-hematologic toxicity of a moderate or worse severity (greater than or equal to grade 2) included nausea and vomiting (18% of all courses), serum transaminase elevations (SGOT, 16%; SGPT, 9%), rash (9%), stomatitis (3%), conjunctivitis (3%), headache (10%), other signs of central nervous system toxicity (8%), and cardiac toxicity, primarily pleuropericarditis (4%). Dose-related cutaneous toxicity, headache, and nausea and vomiting were evident in the five day bolus schedule, and myalgia was more frequently reported at higher doses on the single dose schedule. The five day continuous infusion (CI) schedule had a higher incidence of neurotoxicity, cardiac toxicity, SGPT elevations and ocular toxicity than the daily for five days bolus schedule, but none of these differences attained statistical significance. Although the peak plasma concentrations of tiazofurin achieved with the five day bolus schedule were 3-fold higher than the steady-state plasma levels seen with an equal dose given by CI, the area under the concentration-time curve (AUC) was approximately 1.6-fold higher with CI. These observations suggest that both high peak plasma concentrations (above 400 microM) and prolonged exposure to plasma levels exceeding 50 microM may result in a higher incidence of serious non-hematologic toxicity.
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PMID:Clinical toxicity associated with tiazofurin. 220 Jul 59

Based on in vitro evidence of time-dependent synergistic kill of HL-60 leukemia cells exposed to Ara-C and mitoxantrone, 44 patients with relapsed or refractory AML and 3 with blastic CML were treated with a timed sequence of both drugs. There were 25 females and 22 males, with a median age of 53 (range 21-75). Of 31 patients with relapsed AML, 24 had one prior remission, 6 had two and 1 had three. Of these, 15 had failed a second reinduction attempt. Thirteen patients were primarily refractory to induction with Ara-C plus daunorubicin. Each dose of Ara-C, 500 mg/m2, was followed after 6 hr by mitoxantrone, 5 mg/m2, and the sequence was repeated four to six times (44-68 hr) in different cohorts of patients. All but two patients (one with blastic CML and one in relapse and refractory) are evaluable for response and toxicity. Of 16 patients in relapse without prior reinduction 7 achieved CR and 3 PR (62% response rate); there were 3 CR in the 14 patients who were in relapse and refractory (21% response rate) and 4 CR and 1 PR (35% response rate) in the 14 patients with primary anthracycline resistance. Five of seven patients previously exposed to mitoxantrone achieved CR. Response lasted from 2 to 42 months, with two patients alive and in continuing remission at 34 and 42 months. Average marrow recovery was seen after 25 days and time to remission was 30 days. Six patients died in induction (four from sepsis and two from the tumor lysis syndrome) and 21 had progressive disease. Chemotherapy was well tolerated with minor nausea and vomiting in 13 patients, moderate in 20, and severe in 2. Most patients did not have evidence of drug-induced mucositis: it was minor in 9 and moderate in 2. Renal dysfunction was attributable to the use of nephrotoxic antibiotics. Hepatic dysfunction was reversible and was minor in 10 patients, moderate in 13, and severe in 3. Sequential, timed administration of intermediate-dose Ara-C and mitoxantrone is an active and well-tolerated antileukemic regimen.
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PMID:Sequential intermediate-dose cytosine arabinoside and mitoxantrone for patients with relapsed and refractory acute myelocytic leukemia. 220 4

To further evaluate possible non-cross-resistant regimens in Hodgkin's disease, a phase II trial utilizing antimetabolites and etoposide was initiated by the Cancer and Leukemia Group B (CALGB). Etoposide was included because of its known efficacy in relapsed Hodgkin's disease and to evaluate for synergy with an alkylating agent and vincristine. Cytosine arabinoside and methotrexate were included to evaluate their effectiveness in rapidly growing resistant disease. Forty-two patients with previously treated Hodgkin's disease were entered, of which 37 are evaluable for response and toxicity. All patients had at least 2 prior regimens of chemotherapy and 59% had additional radiation therapy. Complete and partial response was observed in 61%; there were 32% complete responders. Duration of complete response was a median of 8 months (range 2-28+ months). Duration of partial response was 7 months (range 1-17 months). Three patients remain in complete remission at 19, 19, and 28 months. Major toxicity was hematologic with severe or life-threatening toxicity in 54%. There was one patient with a fatal infection. Non-hematologic toxicity, save for nausea and vomiting, was mild and uncommon. There were two fatal and one severe pulmonary toxicities reported in patients who had previous exposure to bleomycin and mediastinal radiation. Three had interstitial pneumonitis and one pulmonary emboli. The interstitial pneumonitis was thought to be drug related. Survival of the entire group is estimated at 61% at 12 months. We conclude that MOPLACE is an effective regimen with an appreciable complete response rate in this heavily pretreated group of patients. Hematologic and pulmonary toxicities are severe and may necessitate dose modifications. The use of etoposide containing combinations requires further study as primary therapy in untreated patients.
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PMID:Phase II study of MOPLACE chemotherapy for patients with previously treated Hodgkin's disease: a CALGB study. 223 20

In an effort to search for new, synergistic and non-cross-resistant antileukemic regimens, the Cancer and Leukemia Group B (CALGB) investigated the activity and toxicity of mitoxantrone in combination with etoposide for the reinduction of patients with relapsed or refractory acute myelocytic leukemia (AML). Mitoxantrone, 12 mg/m2 daily for 3 days, was combined with three dose levels of etoposide, 100, 150 and 200 mg/m2 daily by constant infusion for 5 days. There were 19 male and 13 female patients, with a median age of 46 (range, 21-74). Of these, nine were primarily refractory to daunorubicin and ara-C; 17 had one prior complete remission (CR), five had two prior CR, and one had three prior CR. Thirteen patients were entered at the first dose level, 11 were entered at the second, and eight at the third. All but one patient, whose death occurred within the first 2 days of treatment, are evaluable for toxicity. There were five CR (four at the first and one at the second dose level) and six partial remissions (PR) (three at the first dose level and three at the second). Unmaintained responses lasted 6-33 weeks. Median survival for all patients was 12.6 weeks. Anti-leukemic effects with severe marrow hypoplasia were observed in all patients; severe nausea and vomiting were seen in four. Severe mucositis, often indistinguishable from superimposed candidiasis, occurred in 40% of all patients; it was associated with dose-limiting esophagitis (three of seven evaluable patients) at the highest etoposide dose. Hepatic and renal dysfunction was severe in three patients; no treatment-related severe pulmonary or cardiac toxicity was observed. Posttreatment infectious complications were severe in 11 patients. In three cases, they were fatal--an incidence not dissimilar from that of other reinduction regimens in heavily pretreated patients. The regimen appears to be active; the combination of mitoxantrone, 12 mg/m2 daily for 3 days, with etoposide, 150 mg/m2/day for 5 days, by constant intravenous infusion is now being explored by the CALGB in a randomized phase II study against mitoxantrone plus diazoquinone and diazoquinone plus etoposide.
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PMID:Mitoxantrone and constant infusion etoposide for relapsed and refractory acute myelocytic leukemia. 223 6

A phase II study was conducted by the Cancer and Leukemia Group B (CALGB) in patients with refractory and relapsed Hodgkin's disease (HD) to assess the activity of the combination of etoposide and cis-platin. Twenty-seven patients were entered; 22 were evaluated for this report. Treatment consisted of etoposide (VP-16), 80 mg/m2 IV over 1 hour and cis-platin, 20 mg/m2 IV over 1/2-1 hour; both agents were given daily for 5 days and repeated every 21 days. All patients had received at least 2 prior chemotherapy regimens, had measurable disease, and most (86%) had a performance status of 0-1. In the 22 evaluable patients, there were 4 complete responses (18%) and 4 partial responses, for an overall response rate of 36% (95% Cl: 17.2%, 59.3%). Response duration was from 2.1 to 31 months. Significant toxicity was observed with this regimen. Ten patients (45%) had leukopenia less than 1,000/microliters, and 11 patients (50%) had thrombocytopenia less than 25,000/microliters. Serum creatinine levels reached greater than 2.0 in 14% of patients. Seven patients (32%) had severe nausea and vomiting. VP-16, cis-platin appears to be an active combination in HD; however, their combined activity is only marginally better than reported single-agent activity for VP-16 in the doses and schedule used. Further studies of related combinations in HD are currently under evaluation by the CALGB.
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PMID:Phase II trial of etoposide and cis-diaminodichloro-platinum in patients with refractory and relapsed Hodgkin's disease: Cancer and Leukemia Group B (CALGB) Study 8353. 232 62

In a clinical phase II study the combination of high dose cytosine arabinoside and mitoxantrone (HAM) was applied to 24 patients with refractory acute lymphoblastic leukemia (ALL). All patients had received a standardized first line treatment and were considered refractory against conventional chemotherapy as defined by nonresponse to induction treatment (n = 8), nonresponse to an alternative salvage regimen at first relapse (n = 9), second and third relapses (n = 5) and relapse after bone marrow transplantation (n = 2). Therapy consisted of HD-araC 3 g/m2 q 12 hr days 1-4 and mitoxantrone 10 mg/m2/d days 2-5 or 2-6. Twelve of the 24 patients (50%) achieved a complete remission (CR), one patient had a partial remission, and five patients were nonresponders. Five patients died in aplasia due to infections, one additional patient succumbed to HD-araC related CNS toxicity. Nonhematologic side effects consisted predominantly in infection, nausea and vomiting, mucositis and diarrhea. Recovery of blood counts occurred at a median of 28 days from the onset of treatment; the median time to CR was 33 days. Three of the 12 responders underwent subsequent bone marrow transplantations and one is alive disease free at 40+ months. The median remission duration for the remaining nine patients is 3.5 months, with one case in ongoing CCR at 36+ months; the median survival time is 5 months. Considering the selection of a highly unfavorable group of patients, these data demonstrate a significant antileukemic activity of HAM in refractory ALL and support its application as consolidation treatment during first line ALL therapy.
Leukemia 1990 Sep
PMID:Treatment of refractory acute lymphoblastic leukemia in adults with high dose cytosine arabinoside and mitoxantrone (HAM). 239 83

Two groups of AML patients (n1 = 63, n2 = 20) and two groups of ALL patients (n1 = 33, n2 = 15) were treated using polychemotherapy protocols which in each leukaemia subtype differed mainly in adriblastin administration being either in bolus form (30 mg/m2/day i.v.) or fractional form at the beginning 20 mg i.v., then 6 mg/m2 every 6 h. The fractional method of administration was elaborated on experimental data indicating the superiority of continuous infusion of anthracyclines. In AML additional ara-C was given in continuous infusion only on 1 to 3 days, on 4 to 8 days duplicated dose was administered subcutaneously (i.e. 100 mg/m2 every 12 h). In patients given fractional doses of adriblastin and in AML also ara-C in the modified way the statistical analysis revealed a higher CR (ALL - 67%/93%, AML - 46%/60%) and CR + PR rates, a lower rate of infections as the cause of death in the AML group, lower rates of nausea and vomiting as well a lower increase of infections in the course of the induction treatment in the AML group. Another advantage was a lower total dose of adriblastin for remission induction treatment as well as an elevated cumulative dose which allows anthracyclines to be longer used. The efficacy of the modified ara-C administration confirms our earlier observation.
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PMID:Fractional administration of adriblastin and modified route of ara-C administration for the treatment of acute leukaemia. 241 45

A phase I trial and pharmacokinetic study of 5-aza-2'-deoxycytidine (5-aza-dCyd) were conducted in 21 patients with advanced solid tumors. The drug was given as three 1-h infusions, separated by intervals of 7 h. Treatment was repeated every 3-6 weeks. Forty-six cycles of 5-aza-dCyd were administered at 7 dose levels ranging from 25 to 100 mg/m2 in three infusions. The dose-limiting toxicity was myelosuppression, with a delayed white blood cell nadir, occurring at Day 22. Other toxicities included a mild, reversible elevation of serum creatinine in three patients, minimal nausea and vomiting in six patients, and transient fatigue in three patients. In this study one partial response in a patient with an undifferentiated carcinoma of the ethmoid sinus was observed. Plasma and urinary concentrations of 5-aza-dCyd were measured using a bioassay based on growth inhibition of L1210 leukemia cells in vitro. For 75 and 100 mg/m2 given as 1-h infusions, mean peak plasma concentrations of 0.93 and 2.01 microM, respectively, were attained. In seven of nine courses at doses of 25-60 mg/m2, plasma 5-aza-dCyd concentration was less than 0.01 microM. In one case at 30 mg/m2 and another at 60 mg/m2, peak plasma drug concentrations were determined to be 0.244 and 0.409 microM, respectively. Following cessation of the infusion rapid disappearance of drug from plasma was observed with a t1/2 alpha and t1/2 beta of 7 and 35 min, respectively. High clearance values and a total urinary excretion of less than 1% of the administered dose suggest that 5-aza-dCyd is eliminated rapidly and largely by metabolic processes. For the present schedule studied, a dose of 75 mg/m2 in three infusions, every 5 weeks, is recommended for phase II trials in solid tumors.
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PMID:Phase I and pharmacokinetic study of 5-aza-2'-deoxycytidine (NSC 127716) in cancer patients. 242 59

The effects and toxicities of interferon alfa are described, and the role of the pharmacist in making decisions and providing education about biologic response modifiers (BRMs) is discussed. Interferons have both direct antitumor activity and extensive effects on the immune system. Two recombinant interferon alfa products--interferon alfa-2a and interferon alfa-2b are available commercially. Indications in FDA-approved labeling for interferon alfa include the treatment of hairy-cell leukemia, acquired immunodeficiency syndrome-related Kaposi's sarcoma, and genital warts; however, it also is being used successfully against early chronic myelogenous leukemia, low-grade non-Hodgkin's lymphoma, cutaneous T-cell lymphoma, and previously untreated multiple myeloma. Other malignancies that respond to treatment with interferon alfa are malignant melanoma, ovarian carcinoma, and renal cell carcinoma. The toxic pattern of interferon alfa consists of flu-like symptoms, which are seen at all doses, on all schedules, and in virtually all patients. After repeated dosing, the chronic toxicities of anorexia, weight loss, and malaise and fatigue may develop. Myelosuppression, central nervous system toxicity, increased hepatic enzyme concentrations, nausea and vomiting, and cardiovascular toxicity also are possible. Serum neutralizing antibodies may be formed during therapy; this phenomenon may affect the clinical outcome. Numerous BRMs are being investigated for clinical use, and pharmacists must become conversant in the issues that surround these agents. Areas in which pharmacist involvement and knowledge are important include overall cost, product similarities and differences, dosing and scheduling, drug delivery systems, ways to minimize waste, adverse effects and their management, drug interactions, storage requirements, differences in production and purification techniques among manufacturers, and education of patients and staff.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biologic response modifiers: the interferon alfa experience. 248 96

The chemistry, pharmacology, pharmacokinetics, clinical efficacy, adverse effects, and pharmacodynamics of etoposide are reviewed. Etoposide, although similar in chemical structure to podophyllotoxin, has a different mechanism of cytotoxicity compared with its parent compound. Etoposide may stabilize type II topoisomerase-DNA complexes, preventing rejoining of single- and double-strand DNA breaks. Etoposide may also require cellular activation into intermediates, which then bind to DNA and disrupt cellular function. Oral etoposide has an average bioavailability of 50% (range, 17%-137%), with substantial intrapatient and interpatient variability. Etoposide is widely distributed in the body and is highly bound to plasma proteins (greater than 95%). Approximately 50% (range, 20%-81%) of an etoposide dose is recovered in the urine as parent drug or glucuronide, with the remainder of the dose being unaccounted for. The disposition of etoposide in patients with renal and hepatic dysfunction is discussed. Etoposide is effective in combination with other agents against lung cancer, and response rates of 90% in small-cell lung cancer have been observed. When etoposide is used in combination with other agents, response rates of approximately 80% have been observed in patients with testicular cancer. The activity of etoposide in treating leukemia, lymphoma, and breast and ovarian carcinomas and other tumors is discussed. The impact of etoposide on prolonging survival in lung and testicular cancer is addressed, and studies evaluating the pharmacodynamics of etoposide are described. Adverse effects associated with etoposide therapy include myelosuppression, alopecia, nausea and vomiting, mucositis, and hypotension after rapid intravenous administration. Etoposide has demonstrated considerable clinical efficacy against a broad spectrum of tumors.
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PMID:Etoposide: an update. 279 80


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