Investigational new drugs
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Investigational new drugs · Jan 1996
Efficacy of HMAF (MGI-114) in the MV522 metastatic lung carcinoma xenograft model nonresponsive to traditional anticancer agents.
Illudin analogs are cytotoxic to a variety of multidrug resistant cell lines, and display an unusual toxicity towards DNA helicase-deficient cell lines. Earlier illudin analogs demonstrated efficacy in several xenograft models, including a metastatic MV522 lung cancer model, resistant to conventional anticancer agents. These illudin analogs prolonged life span as compared to conventional agents, but did not induce complete remission of primary tumors. ⋯ Treatment with HMAF induced primary tumor regression in all animals and increased life span greater than 150% (p < 0.001). Thus, administration of HMAF inhibited development of lung metastasis in a model refractory to treatment with conventional anticancer agents. These results support further evaluation of HMAF as a therapeutic agent for treatment of solid tumors such as adenocarcinoma of the lung.
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Investigational new drugs · Jan 1994
Pharmaceutical development of a parenteral formulation of the novel anti-tumor agent carzelesin (U-80,244).
The aim of this study was to design a parenteral dosage form for the investigational cytotoxic drug carzelesin. A stable formulation in PET (Polyethylene glycol 400/absolute ethanol/Tween 80, 6:3:1, v/v/v) was developed. ⋯ Shelf life studies demonstrated that the formulation is stable for at least 1 year, when stored at -30 degrees C in the dark. In addition, the stability of carzelesin in the PET formulation is discussed as a function of temperature, additives and after dilution in infusion fluids.
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Investigational new drugs · May 1991
Adozelesin, a selected lead among cyclopropylpyrroloindole analogs of the DNA-binding antibiotic, CC-1065.
Adozelesin (U-73975) is a potent synthetic cyclopropylpyrroloindole (CPI) analog of the cytotoxic DNA-binding antibiotic, CC-1065. In contrast to the natural product, adozelesin and related CPI analogs do not cause delayed death in non-tumored mice. Adozelesin, selected from a series of analogs for its superior in vivo antitumor activity and ease of formulation, is highly active when administered i.v. against i.p. - or s.c.- implanted murine tumors, including L1210 leukemia, B16 melanoma, M5076 sarcoma, and colon 38 carcinoma, and produces long-term survivors in mice bearing i.v.-inoculated L1210 and Lewis lung carcinoma. ⋯ Its broad spectrum of in vivo activity compares favorably with three widely used antitumor drugs, i.e. cisplatin, cyclophosphamide, and doxorubicin. Adozelesin appears to be more effective than these drugs in the treatment of very resistant tumors such as s.c.-implanted mouse B16 melanoma, pancreatic 02 carcinoma, and human colon CX-1 and human lung LX-1 tumor xenografts. Based on its high potency and high efficacy against a broad spectrum of experimental tumors, adozelesin was chosen for clinical investigation and development.
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Investigational new drugs · Nov 1990
Randomized Controlled Trial Comparative Study Clinical TrialHigh versus low dose granisetron, a selective 5HT3 antagonist, for the prevention of chemotherapy-induced nausea and vomiting.
Fifty six patients, with histologically confirmed cancer, who received highly emetogenic chemotherapy, were entered on a randomized double blind, low versus high dose, study of granisetron, a 5HT3 receptor antagonist. A single dose of intravenous granisetron protected the majority of patients from nausea and vomiting, 160 micrograms/kg was more effective than 40 micrograms/kg with no more side effects. Additional doses of granisetron conferred added benefit to patients who experienced breakthrough symptoms. Granisetron at a dose range of 40-240 micrograms/kg over a 24 hour period was well tolerated with the only side effect being mild headache.