UMLS:C0023418 - FACTA Search

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

PD115934 (NSC 366140) is a soluble pyrazoloacridine derivative presently undergoing preclinical toxicology evaluation with the anticipation of Phase I human investigation. The agent displayed both human and murine solid tumor selectivity in vitro in a soft agar disk diffusion assay, relative to its activity against murine L1210 leukemia. In vivo it was highly active against solid tumors colon adenocarcinoma 38 and pancreas ductal carcinoma 03, which was consistent with the cellular cytotoxicity seen in the disk diffusion assay. A log cell kill of greater than 4.0 was demonstrated in vivo against both models. PD115934 was administered by both bolus and infusional therapy. After completion of these trials, it was determined that this compound was a schedule category III agent, i.e., a schedule-independent agent with peak plasma level toxicity. The main toxicity encountered with infusional therapy was myelosuppression. With bolus therapy, central nervous system toxicities were dose limiting. On the basis of our preclinical infusion studies, we recommend a 2-h infusion twice weekly in humans in order to obtain a total dose of 360 mg/m2 over 8 weeks.
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PMID:Antitumor efficacy of PD115934 (NSC 366140) against solid tumors of mice. 216 50

The principal toxicity of standard induction regimens for acute non-lymphocytic leukemia (ANLL) [including cytarabine (ARA-C) 100 mg/m2 for 7 days plus an anthracycline] is myelotoxicity, leading to death in at least 25% of cases during induction in non-selected patients. The complete remission rate is less than 35% in patients over 65 years of age, due in part to an age-related increase of myelotoxicity. The other important adverse effect of standard-dose cytarabine is gastrointestinal toxicity, especially oral mucositis, diarrhoea, intestinal ulceration, ileus and subsequent Gram-negative septicaemia. Idiosyncratic reactions like exanthema, fever and elevation of hepatic enzymes are relatively frequent, but do not represent therapeutic problems. Intermittent high-dose cytarabine (3 g/m2 in 8 to 12 doses) is extremely myelosuppressive. Similarly, the gastrointestinal toxicity is formidable and dose-limiting. Severe, and sometimes irreversible, cerebellar/cerebral toxicity in 5 to 15% of courses of treatment limits the peak dose of cytarabine. The pathogenesis, prophylactic and therapeutic measures are unknown. These major toxicities are age-related and prohibitive to the use of high-dose cytarabine therapy in patients older than 55 to 60 years. Subacute noncardiogenic pulmonary oedema occurs in some patients, with an incidence of about 20%, and seems to have an intriguing coincidence with precedent streptococcal septicaemia; high-dose systemic steroids may be beneficial. Corneal toxicity is very frequent in high-dose cytarabine therapy but is always reversible. It is largely preventable with prophylactic steroid or 2-deoxycytidine eyedrops. Fever, exanthema and hepatic toxicity have an incidence similar to that in standard dosage. The maximum tolerable cumulated dose of cytarabine is significantly lower when the agent is administered as a continuous infusion, due to myelosuppression and gastrointestinal toxicity. Conversely, continuous infusion may be less neurotoxic. The antileukaemic effect of continuous infusion high-dose cytarabine is less well established. The only significant toxicity of low-dose cytarabine is myelosuppression. Given the generally poor condition of leukaemia patients, low-dose cytarabine therapy is well tolerated, although occasional cases of diarrhoea, reversible cerebellar symptoms, peritoneal and pericardial reactions, and ocular toxicity have been reported. Continuous infusion may be more toxic than the usual intermittent dosage. It is concluded that the toxicity of the standard induction regimen for ANLL is acceptable in patients younger than 60 to 65 years with no concurrent disease. Low dose cytarabine is tolerable for virtually all ANLL patients, but the overall therapeutic efficacy still needs to be defined and compared to standard therapy in the relevant age groups.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The toxicity of cytarabine. 217 34

To study the therapeutic effect of low-dose aclarubicin (ACR), we carried out comparative treatment of 15 patients with myelodysplastic syndrome (MDS) and atypical leukemia using this drug. Complete remission (CR) was achieved in three patients with RAEB-t and one patient with AML, partial remission was obtained in one patient with RAEB and hematological improvement in one patient with refractory anemia (RA). Interestingly, prolonged CR for more than 26 months with persistent chromosomal abnormalities was observed in a case of AML, which progressed from RA. Myelosuppression caused by low-dose ACR was milder than that caused by low-dose Ara-C. Furthermore, in vitro studies indicated that ACR induced differentiation of bone marrow cells from one patient with MDS. From these observations, it is suggested that low-dose ACR may be an alternative to low-dose Ara-C for treatment of MDS, and that the in vivo effect of ACR may be mediated by the differentiation of abnormal hemopoietic clones.
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PMID:Treatment of myelodysplastic syndrome and atypical leukemia with low-dose aclarubicin. 217 36

Biological modification in cancer therapy involves many different strategies and substances. Bacterial products with established usefulness include BCG, C. parvum and L-Asparaginase. Immunotherapy with such agents has not, however, found general application, although revived interest in 'Coley's mixed toxins' (used earlier this century) paralleled the development of their presumed effector molecules, tumour necrosis factor and lymphotoxin. Many other Cytokines, both natural or recombinant, are now produced on a vast scale following the recent biotechnology revolution. Of these, Alpha Interferons have already proved useful in hairy cell leukaemia, carcinoid tumours, renal cell cancer, Kaposi's sarcoma, chronic granulocytic leukaemia and certain lymphomas, whilst their use as adjuvants or in combination is currently being investigated. More recently, Interleukin-2, which stimulates the clonal expansion of activated T-cells, has shown promise both as a single agent, and when used with lymphokine activated killer (LAK) cells or tumour infiltrating lymphocytes (TILS). A different approach involves the Colony Stimulating Factors such as G-CSF and GM-CSF which reduce the degree and duration of treatment-related myelosuppression, thereby allowing more intensive cytotoxic or radiation therapy, as well as facilitating early recovery following bone marrow transplantation. Monoclonal antibodies have not proved as specific for malignant cells as was originally hoped, but certain tumours, such as lymphoma, are now realistic targets for therapy. Increasingly sophisticated effector mechanisms (e.g. conjugated pro-drugs) and genetically engineered "humanised" monoclonal antibody hybrids present the brightest hopes for the future. Biotherapy, the "fourth modality of cancer treatment" has already assumed its place alongside surgery, radiotherapy and cytotoxic chemotherapy, and will grow in importance as our understanding of the molecular biology of cancer increases in the coming decades.
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PMID:Biological modifiers and their role in cancer therapy. 218 42

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

A phase I trial of indicine-N-oxide was carried out in 12 children with solid tumors and in 16 with leukemia. Doses of 5, 6, and 7.5 g/m2 were given parenterally as a 15-min infusion every 3 weeks. The maximum tolerated dose in patients with solid tumors was 7.5 g/m2 and the dose-limiting toxicity was myelosuppression. In leukemia, the maximum tolerated dose was 6.0 g/m2 and hepatotoxicity was dose-limiting. Half of the children with leukemia showed elevations in transaminase levels and one child died of massive hepatic necrosis. This hepatotoxicity limits the use of indicine-N-oxide in children with leukemia. Antineoplastic activity was limited to a transient reduction in the numbers of circulating leukemic cells.
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PMID:Phase I trial of indicine-N-oxide in children with leukemia and solid tumors: a Pediatric Oncology Group study. 220 80

1. B-85-0040 is a new cisplatin analogue with dose limiting myelosuppression. 2. The maximum tolerated dose ranges between 300 and 525 mg/kg for single i.p. bolus injection in mice. 3. Its toxicity is circadian-stage dependent with optimal tolerance between 16 and 17 hours after lights on. 4. B-85-0040 is active in L1210 leukemia. Anti-tumor activity seems to be unrelated to the circadian stage of treatment. Optimal drug timing can therefore increase its therapeutic index.
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PMID:Improved therapeutic index of cisplatin analogue: B-85-0040 by circadian timing. 221 24

A phase II trial of alpha 2b-interferon in patients with relapsed or refractory Hodgkin's disease was conducted by the Cancer and Leukemia Group B. Nineteen patients were eligible for study. These patients had received at least two (median of four) previous chemotherapeutic programs and 79% had received prior radiation therapy. Three patients had undergone intensive chemotherapy and autologous bone marrow transplantation. The treatment regimen consisted of interferon-alpha 2b 10 X 10(6) IU/m2 subcutaneously three times per week. Only limited antineoplastic activity was seen in this heavily pretreated group of patients. There was one partial response and four patients had reduction in measurable disease not meeting the criteria for partial response. The drug was well tolerated. Toxicity was predominantly myelosuppression. Thrombocytopenia was particularly severe in patients with bone marrow involvement. The observed antineoplastic activity, albeit limited, in this heavily pretreated group of patients suggests a potential role for this agent in combination regimens in patients with earlier disease.
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PMID:Interferon therapy of relapsed and refractory Hodgkin's disease: Cancer and Leukemia Group B Study 8652. 231 56

Mitoxantrone is a substituted anthraquinone with considerable activity against human acute leukemia. The authors' goal was to treat patients with continuous infusion mitoxantrone in order to maintain cytotoxic steady state levels with acceptable toxicity and to assess the results. Daily mitoxantrone levels showed a mean steady state plasma level of 16.8 +/- 1.4 ng/ml (range, 9.1-25.1) with a systemic clearance of 519 +/- 47 ml/minute/m2. No drug accumulation occurred. Mitoxantrone was undetectable 24 hours postinfusion. All patients, including two patients with chronic myelogenous leukemia in blast phase, had greater than 90% reduction in leukemia cell mass (marrow cellularity X percent leukemia cells) by day 6. However, six patients received 3 days of etoposide at that point because of residual acute nonlymphocytic leukemia (ANLL). Overall four patients (36%) had a complete remission; one additional patient had a bone marrow remission but also had a persistent granulocytic sarcoma. Toxicities included severe but tolerable myelosuppression, mucositis, and hepatic dysfunction. There was no correlation between mitoxantrone levels, toxicity, or clinical response. Continuous infusion produces cytotoxic plasma mitoxantrone levels and rapid clearing of ANLL from bone marrow. Further dose escalation may be possible.
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PMID:Continuous infusion mitoxantrone in relapsed acute nonlymphocytic leukemia. 234 Apr 63

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

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