Pharmacokinetics and tolerance after repeated doses of imipenem/cilastatin in patients with severe renal failure.

The pharmacokinetics of imipenem and cilastatin after repeated doses have been studied in six patients with severe renal impairment (mean creatinine clearance 10.4 ml/min/1.73 m2). The patients received nine iv injections of imipenem/cilastatin sodium (500/500 mg) at 12-hour intervals. The imipenem plasma concentration-time profile and the pharmacokinetic parameters on day 5 were similar in all respects to those on day 1. Therapeutic plasma levels of imipenem (greater than or equal to 4 mg/l) were maintained for 8-10 h after administration. Most pharmacokinetic parameters of cilastatin were similar on both days. However, the area under the plasma concentration curve (AUC) was significantly increased on day 5, as a result of some accumulation, but the trough levels stabilized after the third injection. Twice daily administration of imipenem/cilastatin 500/500 mg was felt to be a well tolerated and optimal dose regimen in patients with severe renal failure.

The pharmacokinetics of imipenem (thienamycin-formamidine) and the renal dehydropeptidase inhibitor cilastatin sodium in normal subjects and patients with renal failure.

The antibiotic imipenum (thienamycin-formamidine) is partially hydrolyzed during excretion by a renal brush border dehydropeptidase. The co-administration of imipenum with the renal dehydropeptidase inhibitor cilastatin results in an increase of the urinary recovery of the antibiotic, both in animals and humans. To study the pharmacokinetics of imipenem and cilastatin, subjects with normal renal function and patients with different degrees of renal insufficiency received intravenously 250 mg imipenum alone and 250 mg imipenem with 250 mg cilastatin. The mean plasma half-life of imipenem varied from 52 min in subjects with normal renal function to 173 min in subjects with end-stage renal failure studied while off-dialysis. The plasma half-life of imipenem was not affected by the co-administration of cilastatin. The mean plasma half-life of cilastatin varied from 54 min in normals to 798 min in patients with end-stage renal failure. The co-administration of cilastatin resulted in an increase of the urinary concentration and in the urinary recovery of imipenem, the effect being more pronounced in the subjects with normal or only mildly impaired renal function. The plasma clearance of imipenem was decreased when cilastatin was co-administered, possibly due to inhibition of tubular secretion of imipenem. Elimination studies performed during haemodialysis indicated efficient removal of both imipenem and cilastatin during a 4 h session. In view of the important increase in half-life of cilastatin as a function of increasing renal failure, a dosage reduction is proposed in patients with severe renal failure. It is recommended that the maximum dose of imipenem/cilastatin would be limited to either 1000/1000 mg twice daily or 500/500 mg four times daily in patients with a creatinine clearance of less than 15 ml/min. Also, a supplementary dose of imipenem and cilastatin after dialysis is recommended.

Effect of antacids on the bioavailability of diflunisal in the fasting and postprandial states.

Diflunisal is long-acting salicylate derivative. We examined the effect of single concomitant doses of three antacids on diflunisal bioavailability under fasting or fed conditions (30 min after finishing a standard meal). With the use of an open, randomized, and balanced design, one 250-mg diflunisal tablet was given to each of 12 healthy men under six conditions: fasted, no antacid; fed, no antacid; fasted, 15 ml of aluminum hydroxide gel; fed, 15 ml of aluminum hydroxide gel; fasted, 10 ml magnesium hydroxide suspension; and fed, 15 ml of an aluminum hydroxide/magnesium hydroxide mixture. Diflunisal plasma 0- to 48-hr area uiven to each of 12 healthy men under six conditions: fasted, no antacid; fed, no antacid; fasted, 15 ml of aluminum hydroxide gel; fed, 15 ml of aluminum hydroxide gel; fasted, 10 ml magnesium hydroxide suspension; and fed, 15 ml of an aluminum hydroxide/magnesium hydroxide mixture. Diflunisal plasma 0- to 48-hr area uiven to each of 12 healthy men under six conditions: fasted, no antacid; fed, no antacid; fasted, 15 ml of aluminum hydroxide gel; fed, 15 ml of aluminum hydroxide gel; fasted, 10 ml magnesium hydroxide suspension; and fed, 15 ml of an aluminum hydroxide/magnesium hydroxide mixture. Diflunisal plasma 0- to 48-hr area under the time curve (AUC), peak plasma concentrations, and 0-to 96-hr urinary excretion were determined. Food (alone) decreased peak plasma concentrations by 16% (P less than 0.05) but did not affect AUC or urinary excretion. Under fasting conditions, aluminum hydroxide reduced AUC by 26% (P less than 0.01), peak plasma concentrations by 46% (P less than 0.01), and urinary excretion by 14% (P less than 0.05). Magenisuum hydroxide suspension (in the fasting state) increased the early plasma concentrations (by 130% at 0.5 hr and 64% at 1 hr, P less than 0.05) and increased AUC by 10% (P less than 0.05) but had no effect on urinary excretion. In the fed state neither aluminum hydroxide nor the aluminum hydroxide/magnesium hydroxide mixture had any detectable effect.