1 The disposition of two angiotensin converting-enzyme inhibitor drugs was studied in normal volunteers. One drug was enalapril maleate (MK-421), which requires in vivo esterolysis to yield active inhibitor . The other was a lysine analogue of MK-422 (MK-521), which requires no bioactivation. 2 Absorption of enalapril maleate (10 mg, p.o.) was rapid, with peak serum concentrations of enalapril observed 0.5-1.5 h after administration. Based upon urinary recovery of total drug (enalapril plus MK-422), absorption was at least 61%. Bioactivation appeared to be largely post-absorptive. From the ratio of MK-422 to total drug in urine, the minimum extent of bioactivation was estimated at 0.7. 3 A similar dose of MK-521 was absorbed more slowly, reaching peak serum concentrations 6-8 h following drug administration. Minimum absorption, based upon urinary recovery, was 29%. 4 Serum concentration v time profiles for both drugs were polyphasic and exhibited prolonged terminal phases. 5 Recovery in urine and faeces of administered enalapril maleate (intact and as MK-422) was 94%. Recovery of MK-521 was 97%. These results indicate lack of significant metabolism of these agents, apart from the bioactivation of enalapril.
Enalapril maleate is a prodrug which when administered orally is hydrolysed to release the active converting enzyme inhibitor enalaprilat. Enalapril maleate is 60% absorbed and 40% bioavailable as enalaprilat. Both compounds undergo renal excretion without further metabolism. The functional half‐life for accumulation of enalaprilat is 11 h, and this is increased in the presence of a reduction in renal function. Inhibition of converting enzyme inhibition is associated with reductions in plasma angiotensin II and plasma aldosterone, and with increases in plasma renin activity and plasma angiotensin I. Acute and chronic effects have been reviewed. When given with hydrochlorothiazide, enalapril attenuates the secondary aldosteronism and ameliorates the hypokalaemia from diuretics. Both acutely and chronically in patients with essential hypertension, enalapril reduced blood pressure with a rather flat dose‐response curve. No evidence of a triphasic response such as seen with captopril has been demonstrated with enalapril, and blood pressure returns smoothly to pretreatment levels when the drug is abruptly discontinued. Once‐ or twice‐daily dosing gives similar results. The antihypertensive effects of enalapril are potentiated by hydrochlorothiazide. Haemodynamically, blood pressure reduction is associated with a reduced peripheral vascular resistance and an increase in cardiac output and stroke volume with little change in heart rate. Renal vascular resistance decreases, and renal blood flow may increase without an increase in glomerular filtration in patients with normal renal function. In patients with essential hypertension and glomerular filtration rates below 80 ml/min/m2, both renal blood flow and glomerular filtration rates may increase.
Enalapril, the ethyl ester of a potent angiotensin converting enzyme inhibitor, enalaprilat, was administered to healthy volunteers as a capsule containing 10 mg of the maleate salt, every 24h for eight doses. Serum profiles show little accumulation of enalaprilat following eight daily doses of enalapril maleate. An average effective half-life for accumulation of approximately 11h was calculated from urine data. Comparison of observed 24-h urinary recoveries of enalaprilat to predicted steady-state recovery indicates that an 'average' steady state for enalaprilat is attained by the third or fourth dose of enalapril maleate. Statistical comparison of daily urinary recoveries, as well as Cmin values for enalaprilat, confirm this. Observed fluctuations in serum and urine data during apparent steady state suggest some day-to-day variability in the absorption of enalapril maleate and/or its hydrolysis to enalaprilat. An accumulation ratio of 1.3 for enalaprilat was calculated from the predicted steady-state urinary recovery and observed urinary recovery for dose one.
Three new angiotensin converting-enzyme inhibitors were given orally to 20 men in single doses ranging from 1.25 to 40 mg. Two of them induced comparable marked inhibition of both the blood pressure response to exogenous angiotensin I and plasma converting-enzyme activity. Onset of action was relatively slow, but 21 to 24 hr after drug plasma converting-enzyme activity was still clearly reduced. The third was less active. There was a close correlation between blood pressure response on administration of angiotensin I and plasma converting-enzyme activity. There were no adverse effects. These new drugs are interesting because of their long duration of action. The measurement of plasma converting-enzyme activity seems useful for monitoring efficacy of converting-enzyme blockade and compliance to therapy.
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