Cancer research
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The growth-inhibiting effects of the long-acting somatostatin analogue Sandostatin on the transplanted Dunning R3327-H androgen-sensitive rat prostate tumor were investigated. Recipient animals were male Copenhagen x Fischer F1 rats (N = 36). When mean tumor volume reached 700 mm3 (20 weeks following transplantation), the rats were divided into four groups: control; Sandostatin (100 micrograms/kg s.c. twice a day); castrate; castrate/Sandostatin. ⋯ Analysis of the tumor growth rate demonstrated that Sandostatin led to a 19% reduction (P less than 0.05) in growth rate in intact rats and a 9% decrease (not significant) in castrates. These findings extend previous reports of partial suppression of various types of tumors in vivo with Sandostatin and other somatostatin analogues. Their relevance with regard to the possible use of Sandostatin in the treatment of prostatic carcinoma in humans is discussed.
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The plasma and cerebrospinal fluid (CSF) pharmacokinetics of arabinosyl-5-azacytidine (AAC) were studied in rhesus monkeys following a 15-min, 1-h, or 12-h i.v. infusion of 200 mg/kg. No clinically significant toxicity was observed with these schedules. The plasma elimination of AAC is rapid and characterized by a triphasic decay with t1/2 alpha = 3.6-5.4 min, t1/2 beta = 18-24 min, and t1/2 gamma = 94-144 min for the above infusion schedules. ⋯ A triexponential equation modeling the disappearance of AAC was constructed from the in vivo experimental data. Use of this equation in computer-aided simulations of current Phase I doses and schedules of AAC correctly predicts the human plasma concentrations which have been observed. The preclinical pharmacokinetic data provided here may be useful in helping to develop rational human studies with specific concentration x time goals.
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Adoptive immunotherapy with interleukin 2 (IL-2) and lymphokine-activated killer (LAK) cells (IL-2/LAK) is a technically demanding cancer therapy dependent upon large scale isolation and culture of lymphocytes. An important question is whether this technology can be accomplished routinely outside of highly specialized centers. In addition, no systematic examination of laboratory correlates of IL-2/LAK therapy in humans has been reported to date. ⋯ Neither tumor reduction nor clinical toxicity correlated with dose or with cytolytic activity of LAK cells, or with other laboratory parameters including base-line lymphocyte count and IL-2-induced lymphocytosis. We conclude: (a) large quantities of LAK effector cells with tumoricidal activity can be generated routinely at different centers; (b) neither in vitro LAK activity nor numbers of LAK cells infused were predictive of clinical efficacy or toxicity. There is a need to identify other laboratory or clinical parameters more predictive of IL-2/LAK therapeutic efficacy or toxicity.