1 To determine whether cimetidine altered the renal handling of metformin, seven subjects took 0.25 g metformin daily with and without cimetidine 0.4 g twice daily. Blood and urine samples were collected and assayed for metformin, cimetidine and creatinine by h.p.l.c. 2 Cimetidine significantly increased the area under the plasma metformin concentrationtime curve by an average of 50% and reduced its renal clearance over 24 h by 27% (P < 0.008). There was no alteration in the total urinary recovery of metformin when cimetidine was co-administered. 3 The effect of cimetidine on the renal clearance of metformin was time dependent, being significantly reduced up to 6 h following cimetidine. These results appeared to be consistent with competitive inhibition of renal tubular secretion. 4 Cimetidine had no effect on the renal clearance of creatinine, but time-dependent variations in both metformin and creatinine renal clearance were observed. Metformin had no effect on cimetidine disposition. 5 It is concluded that cimetidine inhibits the renal tubular secretion of metformin in man, resulting in higher circulating plasma concentrations. Because of its propensity for causing dose and concentration-dependent adverse effects, the dose of metformin should be reduced when cimetidine is co-prescribed.
Fifteen subjects received a single 400-mg oral dose of enoxacin in the fasting state and after carbohydrate and high-fat meals. The carbohydrate meal delayed the time to peak enoxacin concentration in plasma by an average of 0.92 h. The extent of enoxacin absorption was not altered by food.
We have investigated the influence of cimetidine on the disposition of tolbutamide in 7 healthy subjects, who received 250 mg tolbutamide daily for 4 days followed by the concomitant intake of cimetidine 400 mg twice daily for a further 4 days. Cimetidine had no effect on the disposition of tolbutamide, including the unbound hydroxylation clearance rate (324 ml X min-1, tolbutamide alone; 316 ml X min-1, tolbutamide plus cimetidine). The total urinary recovery of carboxy- and hydroxy-tolbutamide metabolites was 85.7 +/- 20.3% of the dose when tolbutamide was given alone and 78.9 +/- 14.3% when given with cimetidine. This lack of a pharmacokinetic interaction suggests selectivity of cimetidine-induced inhibition of Phase I drug oxidation.
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