Fosinopril is a phosphorus-containing ester prodrug of an angiotensin-converting enzyme (ACE) inhibitor. It is hydrolysed mainly in the gastrointestinal mucosa and liver to the active diacid, fosinoprilat, which has unique pharmacological properties. The majority of the active moieties of other ACE inhibitors are excreted in the urine. This means that an adjustment in either the dosage and/or the administration interval is needed in patients with moderate to severe renal dysfunction, in order to reduce drug accumulation and the possibility of an excessive decrease in blood pressure or other adverse effects. On the other hand, fosinoprilat is excreted both in urine and bile (as with temocaprilat, zofenoprilat and spiraprilat), and thus an adjustment of dosage and/or administration interval may be unnecessary in patients with moderate to severe renal dysfunction, as impaired renal function influences little of the pharmacokinetics of fosinoprilat. Furthermore, the available evidence suggests that the pharmacokinetic variables of fosinoprilat in patients receiving haemodialysis were similar to those in patients with moderate to severe renal dysfunction. Dosage modifications or supplemental dose administration following dialysis may be unnecessary. The hypotensive effect of the combination of fosinopril and a diuretic is synergistic. Pharmacokinetic interactions with fosinopril are unlikely in patients receiving thiazide or loop diuretics. Fosinopril has beneficial effects for patients with hypertension and left ventricular hypertrophy because it produces an adequate reduction in blood pressure and reversal of left ventricular hypertrophy. There are a large number of studies of the pharmacokinetics of fosinopril. However studies of its pharmacokinetic drug interactions with other drugs are far fewer. Further investigations are needed in several clinical settings.
This study was conducted to examine whether imidaprilat, an active diacid of the angiotensin-converting enzyme (ACE) inhibitor imidapril, preferentially inhibits angiotensin I degradation rather than bradykinin degradation, and whether imidapril is less active than other ACE inhibitors in inducing cough in patients with hypertension. The effect of imidaprilat on the inhibition of pressor response to angiotensin I and augmentation of depressor response to bradykinin was compared with that of enalaprilat and captopril in anesthetized rats. To determine the incidence of cough associated with imidapril, patients with a history of ACE inhibitor-induced dry cough were enrolled in a randomized, open-labeled, crossover trial with two 6-week periods to be treated with imidapril or amlodipine, a calcium-channel blocker. The recurrence of cough was assessed during both treatments. In the animal study, there were no significant differences in the ratio of inhibition of pressor response to angiotensin I and the augmentation of depressor response to bradykinin among the ACE inhibitors. In the cough-challenge trial, a total of 60 patients with hypertension were enrolled in the study. Cough and cough related symptoms recurred in 98.3% of the patients (59/ 60) during imidapril therapy. In contrast, only two patients reported cough during treatment with amlodipine. These results indicate that imidapril has no selectivity in inhibiting angiotensin I- and bradykinin-degradation in rats, and that clinically it is not different from other ACE inhibitors in inducing cough in patients with hypertension.
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