1 The oral administration of a benzothiazolinone derivative (benzoyl-6 dihydro-2,3 benzothiazole), S14080, caused dose-dependent antinociception in the rat paw pressure test, which represents a model of mechanical hyperalgesia. S14080 had no significant effect on the inflammatory oedema induced by carrageenin or on the tail flick test, nor did it possess a notable antipyretic effect. 2 Post-treatment with S14080 dose-dependently antagonized the hyperalgesia induced by prostaglandin E2, bradykinin, dopamine and by the hyperalgesic cytokines reported to be released by carrageenin (tumour necrosis factor a, interleukin-l and interleukin-8).3 The blockade of prostaglandin E2-induced paw hyperalgesia by oral pretreatment of the rats with S14080 was abolished by prior intraplantar administration of either naloxone or NorBNI which are non-specific and specific K opioid antagonists, respectively. 4 Adrenalectomy abolished the oral antinociceptive effect of S14080. 5 Five consecutive daily injections of S14080 did not produce tolerance such as that seen with the central antinociceptive action of morphine. 6 As with peripherally acting opiates, the antinociceptive activity of S14080 was abolished by the intraplantar injection of agents which inhibit either arginine synthetase (N0-monomethyl-L-arginine) or the activation of guanylate cyclase (methylene blue). 7 We conclude that S14080 is a new type of peripheral antinociceptive which, in rats, acts mainly by releasing an endogenous, opioid-like substance from the adrenal glands.
Perindopril, an angiotensin converting enzyme (ACE) inhibitor, is converted in vivo to its active diacid metabolite, perindoprilat and to a perindoprilat glucuronide. The pharmacokinetic parameters of perindopril, perindoprilat and perindoprilat glucuronide were evaluated after single administration to healthy volunteers (N = 12) of 8 mg of perindopril tert-butylamine salt by oral route (treatment A), by intravenous route (bolus in 5 min, treatment B) and of an equimolar dose of perindoprilat (6.1 mg) by intravenous route (infusion over 2 h, treatment C). The treatments were administered as a randomised 3-way cross-over design. Plasma samples were collected up to 96 h and urines up to 120 h. Perindopril is rapidly absorbed with an oral bioavailability of 95% and is mainly eliminated by metabolic processes. The formation of perindoprilat is slow and about 20% of the available parent drug is transformed into this metabolite. Elimination profile of perindoprilat is biphasic, with a rapid renal excretion of the free fraction and a long terminal half-life of the fraction bound to ACE. Perindoprilat glucuronide is mainly obtained from perindopril by a pre-systemic first pass metabolism.
Food has been shown to reduce the bioavailability of the angiotensin-converting enzyme inhibitor captopril, but not the bioavailability of inhibitors administered as ester prodrugs. Perindopril is the ester pro-drug of the angiotensin-converting enzyme inhibitor perindoprilat. The influence of food on the pharmacokinetics of perindopril (4 mg administered orally) and the time course of angiotensin-converting enzyme inhibition in serum was studied in a randomized crossover short-term study of 12 healthy subjects. Food significantly decreased the relative availability of perindoprilat by 35% +/- 42%, the fractional urinary excretion of perindoprilat from 19% +/- 7% to 13% +/- 4% (p less than 0.05), and the partial metabolic clearance of perindopril to perindoprilat from 102 +/- 57 ml.min-1 to 72 +/- 32 ml.min-1 (p less than 0.05). These changes were associated with a significant decrease in the area under the percent angiotensin-converting enzyme inhibition-versus-time curve by 15% (p less than 0.05). Food did not alter the total amount of drug recovered in urine as perindopril and its metabolites, and it did not alter perindoprilat renal clearance. We concluded that food alters the conversion of perindopril to its active metabolite perindoprilat after single-dose administration of perindopril.
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