Metabolism-based cyclophosphamide dosing for hematopoietic cell transplant

When cyclophosphamide (120 mg/kg) is used for hematopoietic cell transplant, the increased area under the curve of carboxyethylphosphoramide mustard (AUC(CEPM)) is related to liver toxicity and death. We determined the feasibility of dose-adjusting cyclophosphamide to a preset metabolic endpoint (AUC(CEPM), 325 +/- 25 mu mol/L (.) h). In 20 patients blood sampling was done over a 16-hour period after administration of 45 mg/kg cyclophosphamide; AUC(CEPM) from 0 to 16 hours was calculated by noncompartmental analysis. The expected AUC(CEPM) for 0 to 48 hours was estimated, and the second cyclophosphamide dose was determined. The mean second cyclophosphamide dose was 42 mg/kg, and the mean total cyclophosphamide dose was 86 mg/kg (range, 54-120 mg/kg). The mean AUC(CEPM) for the time from 0 to 48 hours was 296 mu mol/L (.) h (95% confidence interval, 275-317 mu mol/L (.) h). A retrospective analysis indicated that AUC(CEPM) could be more accurately predicted by use of a population pharmacokinetic model. We conclude that metabolism-based dosing of cyclophosphamide is feasible and that a lower cyclophosphamide dose does not affect engraftment.