Ten CsA pharmacokinetic studies were performed on five pancreas transplant recipients to determine proper doses and dosing intervals. These cadaver pancreas transplants were performed with exocrine ductal drainage into the urinary tract through a bladder anastomosis in four cases and into the bowel in one case. Four CsA pharmacokinetic studies were performed on diabetic renal transplant recipients and an additional six studies were performed while with pancreas transplant patients taking metoclopramide in an effort to enhance absorption of CsA. Mean CsA dose was 3.7 mg/kg/dose (range 2.1 to 7.5 mg/kg/dose). All patients but one were on twice daily dosing intervals yielding an average daily dose of 7.4 mg/kg/d. Noncompartmental pharmacokinetic analyses were used. The adequacy of a 1-, 2-, or 3-exponential model was determined by breakpoint analysis of the log concentration v time curve using the F statistic. The terminal rate constant was calculated by nonlinear regression analysis. The AUC and AUMC were calculated by the trapezoidal method with exponential extrapolation and these were used to calculate the MRT and Vdss. The unknown fractional absorption, F, was used to correct the oral data. The average CsA concentration maximum (Cmax) was 528 ng/mL with an average time to maximum concentration (Tmax) of 4.7 hours, a mean residence time of 7.75 hours, with a Vdss/%F of 9.61 L/kg in the pancreas transplant recipients. Additional studies of six patients receiving metoclopramide with CsA revealed an average Cmax of 723 ng/mL, an average Tmax of 2.3 hours, an average MRT of 6.08 hours, and an average Vdss/%F of 5.7% L/kg. These results indicate that coexistent gastroparesis in diabetic recipients of either pancreatic or renal transplants may result in reduced bioavailability of CsA.