Concurrent administration of sodium thiosulfate (STS) can protect against the nephrotoxic effects of even very-high-dose cisplatin (CDDP) (i.e., 270 mg/m2 given intraperitoneally). The effect of STS on the pharmacology and toxicity of CDDP was investigated in patients receiving at each treatment 90 mg of CDDP/m2 intraperitoneally, with STS given concurrently on alternate cycles by the intravenous route. The patients received a total of 38 courses of therapy, 21 without STS and 17 with STS. STS reduced the total exposure to diethyldithiocarbamate-reactive CDDP for the peritoneal cavity and plasma by 36% and 25%, respectively. When given alone, CDDP caused a statistically significant acute reduction in creatinine clearance levels; this reduction was less evident when STS was given. We conclude that, whereas STS does reduce systemic exposure, the magnitude of this effect was not sufficient to account for the ability of STS to protect against high-dose CDDP.
Progesterone enhanced the hematologic toxicity of doxorubicin without altering its pharmacokinetics, suggesting that progesterone could modulate P-glycoprotein at the level of pluripotent hematopoietic stem cells. Adequate tissue concentrations of progesterone could be achieved in vivo to modulate doxorubicin toxicity in the bone marrow and thus potentially in tumor tissue as well. Selectivity may potentially be gained by using hematopoietic growth factors to offset the enhanced hematologic toxicity of doxorubicin while leaving the enhancement of toxicity to tumor cells unchanged.
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