Studies on the human pharmacokinetics of isophosphamide (NSC-109724).

Article Details

Citation
Copy to clipboard

Allen LM, Creaven PJ, Nelson RL

Studies on the human pharmacokinetics of isophosphamide (NSC-109724).

Cancer Treat Rep. 1976 Apr;60(4):451-8.

PubMed ID
1277221 [ View in PubMed
]
Abstract

The pharmacokinetics of isophosphamide (IP) in man has been studied using 14C-labeled drug and differential extraction of unchanged drug from metabolites by CHCl3 extraction of plasma and urine. The plasma decay of IP is biphasic with a terminal half-life of 15.2 hours which is twice that reported for cyclophosphamide (CP). The fraction of drug metabolized is 49% for IP compared to 88% reported for CP. This is consistent with the six-times larger pseudometabolic pharmacokinetic rate constant reported for CP (0.26 hr-1) than found by us for IP (0.04 hr-1). The renal clearance for IP (21.3 ml/min) is two times that of CP (10.7 ml/min). In addition to an analysis of the kinetics of disposition and elimination of unchanged IP, an analysis of the pharmacokinetics of total metabolite of IP in plasma and urine was made. A nonlinear pharmacokinetic model which includes a term for biotransformation according to Michaelis and Menten revealed that the total metabolites do not diffuse from a small plasma space of 2.1 liters but are excreted directly via the urine. In contrast to the biexponential plasma decay of single, high-dose IP (5 g/m2), multiple-dose IP (2.4 g/m2/day X 3) shows a monoexponential decay with a half-life of 6.9 hours, a pseudometabolic rate constant of 0.08 hour-1, and a renal clearance of 18.7 ml/minute. The fraction of drug metabolized (79.7%) calculated from the pharmacokinetic parameters agrees with the fraction of drug recovered in urine as total metabolites (72.8%). This is distinctly different from high-dose IP (48.6%) but similar to the fraction of drug metabolized as reported for CP (88.0%). This suggests that the pharmacokinetic transfer constant for IP metabolism is dose dependent, an observation that may be useful in developing new IP regimens.

DrugBank Data that Cites this Article

Drugs