UFT is a compound in which futraful (FT) and uracil are combined at a ratio of 1:4. UFT was given orally at a daily dose of 300-600 mg in a phase II study. Pooled data on a UFT phase II study of 438 evaluable patients, at 104 institutions revealed a response in carcinoma of the stomach (27.7%), pancreas (25.0%), gallbladder and bile duct (25.0%), liver (19.2%), colon and rectum (25.0%), breast (32.0%), and lung (7.0%). The mainly gastrointestinal toxicity resulted in anorexia (24.3%), nausea and vomiting (12.5%), and diarrhea (11.8%). On the other hand, hematological toxicity was rare and mild. To analyze the life-prolonging effect of the therapy, a cohort study was carried out in 438 cases collected in the UFT phase II study 5 years after the commencement of the therapy. The 50% survival time for 185 patients with gastric cancer was 185 days. The corresponding times in 54 patients with colorectal cancer and 49 with breast cancer were 227 and 505 days, respectively. A historical comparative study of UFT and FT, which was administered in the same institutions for equal evaluation, revealed that UFT had a significantly better effect than FT without more pronounced side effects with the equivalent dose schedule. In conclusion, UFT can be considered a useful against cancers over a broad spectrum, especially in gastrointestinal cancer.
A phase I clinical and pharmacokinetic study of recombinant human tumor necrosis factor (rH-TNF) was conducted in a single dose schedule in 33 patients with advanced cancer. rH-TNF was given by i.v. infusion over 30 min with a starting dose of 1 x 10(5) units/m2. The dose was escalated up to 16 x 10(5) units/m2 according to the modified Fibonacci scheme. Toxic effects were similar but not identical to those reported with interferons and interleukin-2, and included fever, rigors, nausea and vomiting and anorexia in a non-dose-dependent manner, and hypotension, leukocytosis, thrombocytopenia and transient elevation of transaminases (SGOT and SGPT) in an approximately dose-dependent manner. DIC syndrome was observed in one patient who had received 16 x 10(5) units/m2. The dose-limiting toxicities were hypotension, thrombocytopenia and hepatotoxicity, and the maximum tolerated dose in a single i.v. infusion of rH-TNF appeared to be 12 x 10(5) units/m2 when thrombocytopenia and elevation of SGOT and SGPT were taken as the dose-limiting toxicities. However, if hypotension was included, the maximum safely tolerated dose appeared to be 5 x 10(5) units/m2.
The pharmacokinetics of carboplatin were investigated in cancer patients after single, IV infusion doses of 75, 150, 247.5, 300, 375, and 450 mg/m2. Total plasma and urine platinum and plasma ultrafilterable platinum concentrations were determined by atomic absorption spectrometry. Carboplatin was analyzed in plasma by a specific high-performance liquid chromatography (HPLC) procedure. Total plasma platinum, which represented free carboplatin, protein-bound platinum and metabolites, declined triexponentially; plasma half-lives (t1/2 lambda 1, 0.2 to 0.4 hr; t1/2 lambda 2, 1.3 to 1.7 hr; t1/2 lambda 3, 22 to 40 hr) and total body clearance (CLTB 2.8 +/- 0.5 L/m2/hr) were dose independent. Maximum plasma concentrations (Cmax) and area under the plasma concentration time curve (AUC) increased proportionally with dose. Plasma ultrafilterable platinum and carboplatin concentrations at doses of 375 and 450 mg/m2 declined in a biphasic manner. Plasma carboplatin elimination (t1/2 lambda 1, 0.50 hr; t1/2 lambda 2, 2.2 hr) and CLTB (4.4 to 5.6 L/m2/hr) were also independent of dose; AUC and Cmax increased proportionally to dose. Plasma free platinum was essentially all carboplatin for 8 or 12 hours after administration. Carboplatin did not bind to plasma protein in vitro but did degrade (t1/2-26 hours) to yield a reactive intermediate that bound rapidly and irreversibly to protein. The long terminal elimination half-life of plasma platinum was associated with irreversible binding of a platinum metabonate to plasma protein. The urinary excretion of platinum (0 to 24 hours) accounted for 58 to 72% of doses in 12 to 24 hours. The remainder of the dose is slowly excreted. The pharmacokinetics, in vivo stability, protein binding, and elimination of carboplatin are distinct from the first-generation analog cisplatin.
The incidence found at autopsy of cardiac and great vessels' metastases in patients who died of malignant neoplasms except leukemia is reported. Observations, which are also derived from pathological study, about the effect of radiation therapy on metastases to heart, pericardium and great vessels and distribution of concomitant metastases in the patients with cardiac metastasis are carried out.
A Phase I1 study of interferon alfa-2a was conducted in 64 patients with multiple myeloma (42 I&, 16 IgA, 5 Bence-Jones type, and 1 IgD) in a multi-institutional cooperative trial. Partial remission was obtained in 10 (21.3%) of 47 evaluable patients, and minor responses in 5 (10.6%) of 47. Remission was reached at 22 to 89 days (median, 29 days) after the initiation of interferon alfa-2a and lasted 4 to 55 weeks (median, 8 weeks). Side effects were noted in more than two-thirds nf patients, and included fever (58%), malaise (20%), anorexia (52%), nausea-vomiting (26%), lethargy (2%), and myelosuppression (56%). They were all reversible on discontinuation of interferon alfa-2a. Antibody to interferon alfa-2a was detected in 1 of 20 patients tested during the course of treatment. Thus, interferon alfa-2a was effective in multiple myeloma, producing unequivocal response in 21.3% of patients without unacceptable side effects.Cancer 57 shown to possess antitumor properties against various human malignancies, including osteogenic sarcoma, malignant lymphoma, multiple myeloma, leukemia, and renal cell carcinoma?-* Although the true biological function of interferons in human malignancy remains largely speculative, they seem to possess both a direct cytotoxic effect on tumor cells and an indirect effect mediated through immune systems.' Because of the speciesspecific activities of interferons, the early clinical trials were restricted by the limited supply and high costs. The recent progress of recombinant DNA technology, however, has provided a method of producing large quantities of highly purified single molecular interferons.We report here the results of a Phase I1 multi-institutional cooperative trial of a recombinant human interferon, interferon alfa-2a, in patients with multiple myeloma. Interferon alfa-2a showed objective antitumor effects on this type of malignancy, producing a partial remission rate of 2 1.3% in 47 evaluable cases. Patients and MethodsSixty-four multiple myeloma patients from 2 1 major university and cancer hospitals entered this Phase I1 study. There were 42 IgG; 16 IgA; 5 Bence-Jones (B-J) type; and 1 I@. The patients' ages ranged from 39 to 84 years (median, 62 years), and included 39 males and 25 females.
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