Repeated administration of the converting enzyme inhibitor cilazapril to normal volunteers

Cilazapril 1.25 and 5.0 mg p.o. q.d. was administered in double-blind fashion to two groups of six normal volunteers on 8 consecutive days. Blood pressure, heart rate, and plasma converting enzyme activity were measured each day prior to drug administration and up to 72 h after the last dose. Plasma renin activity, blood angiotensin I, plasma angiotensin II, and aldosterone as well as plasma cilazaprilat levels were determined on the first and the last day of active treatment at times 0, 4, and 24 h. The drug was very well tolerated by all volunteers. At 4 h postdrug, plasma converting enzyme activity was reduced in dose-dependent fashion on the first and the eighth day; plasma cilazaprilat levels were also clearly dose dependent. Nevertheless, 24 h postdrug cilazaprilat levels were similar on the first and last day of drug administration, and plasma converting enzyme activity was also stable throughout the 8 days. The various components of the renin-angiotensin system responded in the usual fashion. These results provide strong evidence that cilazapril is a very potent and highly effective converting enzyme inhibitor. Doses well below 5 mg/day will probably suffice for therapeutic efficacy. These data also confirm the hypothesis formulated in the preceding article, i.e., that there is no accumulation of the drug with repeated administration despite its long pharmacological half-life (t1/2).     

Effects of single doses of the converting enzyme inhibitor cilazapril in normal volunteers

The new converting enzyme inhibitor cilazapril, or RO 31-2848, was evaluated in 14 healthy male volunteers. In a pilot study in two subjects, the inhibiting capacity of single oral doses of 5 and 10 mg on the pressure and heart rate response to exogenous angiotensin I was assessed. Both doses reduced the blood pressure response to angiotensin I to 10% of control within 45 min and for the 4 h tested. In the main study, 12 volunteers each received two single oral doses of cilazapril at a 2-week interval, and plasma converting enzyme and renin activity, blood angiotensin I, plasma immunoreactive angiotensin II and aldosterone were measured serially. Single doses of 1.25, 2.5, 5, and 10 mg of cilazapril were tested in groups of six subjects each. All doses inhibited plasma converting enzyme activity by 90% for at least 8 h and induced the expected pattern of changes of the renin-angiotensin-aldosterone system. Only slight dose-dependent variations in the effect were observed. Basic heart rate and blood pressure were not altered by any of the doses, which all were well tolerated. These data suggest that cilazapril is a very potent and long-acting new converting enzyme inhibitor.     

Pharmacokinetics and haemodynamic effects of the angiotensin converting enzyme inhibitor cilazapril in hypertensive patients with normal and impaired renal function

1 The pharmacokinetic and pharmacodynamic properties of the angiotensin converting enzyme (ACE) inhibitor cilazapril were studied in 30 hypertensive patients with various degrees of renal function.
2 After a single oral dose, apparent cilazaprilat clearance was dependent on renal function being 16.0±3.0, 11.1 ± 3.0, 8.7 ± 3.7 and 6.7 ± 2.1 l h^-1 (means ± s.d.) in patients with creatinine clearances (CL_cr) of > 100, 41-100, 21-40, and 8-20 ml min^-1, respectively.
3 During 11 weeks of treatment with cilazapril, doses were adjusted to the CL_cr and varied from 0.5 to 5.0 mg once daily. At 24 h after drug administration a clear antihypertensive response was seen only in the low clearance groups (CL_cr < 40ml min^-1). In contrast, and despite higher once daily dosages, the decline of mean arterial pressure was small and cilazaprilat concentrations after 24 h were lower in the high clearance groups.
4 This study demonstrates that chronic once daily treatment with cilazapril is effective in patients with impaired renal function at dosages adjusted to creatinine clearance. No accumulation was seen. Since cilazaprilat clearance was high in the high creatinine clearance groups, a clear antihypertensive response in these groups was only seen at 3 h after drug administration.     

Hemodynamic responses to angiotensin I in normal volunteers and the antagonism by the angiotensin-converting enzyme inhibitor cilazapril

According to classic pharmacologic theory, agonist/antagonist competition can be used to quantify an antagonist's potency by measurement of agonist dose-response curves in the presence of varying doses of the antagonist. We used this principle to characterize the interaction between angiotensin I (AI) and the angiotensin-converting enzyme (ACE) inhibitor cilazapril in humans. In addition, by comparing the effects of AI and angiotensin II before and after administration of a 30-mg dose of cilazapril, we could show the specific AI antagonism of the ACE inhibitor in humans. To obtain the antagonist's dose-response curves, six healthy male volunteers received five single oral doses of cilazapril, 0.5-8.0 mg. Enalapril, 10 mg, and captopril, 12.5 mg, served as positive controls and placebo as the negative control. Dose-response curves following intravenous infusions of AI were established 4 h after oral ingestion of the ACE inhibitors. Noninvasively measured systolic and diastolic blood pressures and total peripheral resistance assessed AI effects. Cilazapril dose dependently shifted the AI dose-response curve rightward, with 1.0 mg inducing a twofold shift. Enalapril and captopril appear less potent, on a milligram basis, in antagonizing AI effects 4 h after drug intake. The methodology could be a useful tool for a rational testing and comparison of ACE inhibitors in clinical pharmacology.     

RHC 3659: a new orally active angiotensin converting enzyme inhibitor in normal volunteers.

1 The new converting enzyme inhibitor RHC 3659 was tested in 15 male volunteers. The study consisted of two parts: first, the ability of a single oral dose (5, 10, 20, 40 or 80 mg) to inhibit the pressor response to exogenous angiotensin I was tested with blood pressure and heart rate monitored continuously through an intraarterial catheter. A dose-related shift to the right of the pressor response curve to angiotensin I was observed with a peak occurring within 0.5 to 1 h. The pressor response to angiotensin II was unaffected. 2 In the second part, plasma renin and converting enzyme activity, angiotensin II and aldosterone were measured serially before and up to 8 h after administration of a single oral dose of RHC 3659. As expected. plasma angiotensin II and aldosterone fell within 30 min while plasma renin activity increased. Plasma converting enzyme activity was suppressed at 0.5 h in a dose-related manner with levels still below 30% of control 4 h following 80 mg of the inhibitor. 3 However, in vitro the enzyme-inhibitor complex seemed quited fragile since during storage of the plasma samples at -20 degrees C, converting enzyme activity increased significantly already within days (P less than 0.001, n = 28) and continued to rise for more than 2 months. This fragility may explain the seemingly lower potency of RHC 3659 when compared to captopril. No side effects were observed.     

Haemodynamic and pharmacological effects of the converting enzyme inhibitor CGS 14824A in normal volunteers

Summary The converting enzyme inhibitor CGS 14824A was evaluated in 15 healthy male volunteers. First, the efficacy of a single 5 or 10 mg oral dose in antagonizing the pressor response to exogenous angiotensin I was tested in 2 subjects. Blood pressure and heart rate were monitored continuously through an intra-arterial catheter. CGS 14824A 5 mg reduced the response to angiotensin I within 75 min to 50%, and 10 mg within 1 h to less than 25%, and for a period of more than 4 h. Subsequently, plasma renin and converting enzyme activity, plasma angiotensin I, angiotensin II and aldosterone were measured serially before and up to 72 h following oral administration of 2, 5, 10 or 20 mg CGS 14824A to groups of 5 volunteers. Plasma converting enzyme activity fell to well below 10% of baseline within 1 h after administration of 5 mg or more CGS 14824 A. Within 2 h following 2 mg p.o., a similarly low level was reached. Twenty four hours following the 20 mg dose, plasma converting enzyme activity was still below 10%. As expected, plasma renin activity and angiotensin I rose while angiotensin II and aldosterone fell following the 2 mg dose. This pattern of effects was enhanced by increasing the dose. Nonetheless, 24 h after the 20 mg dose, plasma angiotensin II and aldosterone had returned to their baseline levels. No side-effects occurred. Thus, in normal volunteers, CGS 14824A was an effective, potent and long acting converting enzyme inhibitor.     

A potent converting enzyme inhibitor CGS 13928C. Drug profile in normal volunteers

Summary The converting enzyme inhibitor CGS 13928C was evaluated in 15 healthy male volunteers. First the efficacy of a single oral dose of 0.5, 1, 2 or 5 mg in antagonizing the pressor response to exogenous angiotensin I was tested with continuous monitoring of the blood pressure and heart rate by an intraarterial catheter. CGS 13928C 1, 2 and 5 mg consistently reduced the response to angiotensin within 2 to 3 h and for a period exceeding the 4 h of monitoring. The 2 mg dose was hardly more effective than 1 mg and 5 mg did not further enhance the blockade. Subsequently, plasma renin and converting enzyme activity, angiotensin I, angiotensin II and aldosterone were measured serially before and up to 72 h following oral administration of either 1 mg (n=7) or 2 mg (n=8) CGS 13928C. As expected, plasma renin activity and angiotensin I rose, while plasma converting enzyme activity, angiotensin II and aldosterone fell following both doses of the drug. No side-effects occurred. In normal volunteers CGS 13928C is an effective and extremely potent, orally active converting enzyme inhibitor.     

Interaction between furosemide and the converting enzyme inhibitor benazepril in healthy volunteers

Summary Single oral doses of 10 mg converting enzyme inhibitor benazepril (CGS 14824A) and 40 mg furosemide were administered to 12 healthy male volunteers either separately or concomitantly. The pharmacokinetic parameters of benazepril were not influenced by coadministration of furosemide. Urinary excretion of total furosemide was significantly reduced by 10 to 20% in the presence of benazepril. This effect was considered clinically insignificant. Erect blood pressure decreased and pulse rate increased only during concomitant treatment.     

The effect of the converting enzyme inhibitor HOE 498 on the renin angiotensin system of normal volunteers

Summary The converting enzyme inhibitor HOE 498 was evaluated in 12 normotensive male volunteers aged 21 to 26. The efficacy of single 5, 10 or 20 mg oral doses in blocking the pressor response to exogenous angiotensin I was tested in 3 of the subjects. All 3 doses of HOE 498 reduced the pressor response to exogenous angiotensin I to below 50% of control within 1,5 h following administration of the drug. Plasma renin and converting enzyme activity, blood angiotensin I, as well as plasma angiotensin II and aldosterone were measured serially before and up to 72 h following oral administration of a single dose of 2.5, 5, 10 or 20 mg of HOE 498 to groups of 5 volunteers each. As expected, blood angiotensin I levels and plasma renin activity rose while plasma converting enzyme activity, plasma angiotensin II and aldosterone concentration fell after administration of the drug. While the dose of 2.5 mg did not reduce plasma converting enzyme activity below 20% of control, the higher doses all resulted in plasma converting enzyme inhibition exceeding 90%. No side-effects were observed. It is concluded that in normal volunteers HOE 498 is an effective potent and long-acting converting enzyme inhibitor. Based on these preliminary findings it is expected that 5 mg HOE 948 will turn out to be adequate for therapeutic use.     

The pharmacodynamics and dose-response relationships of the angiotensin converting enzyme inhibitor, cilazapril, in essential hypertension.

In a double-blind, placebo controlled, crossover study 12 patients with essential hypertension received single doses of 5, 10 and 20 mg of cilazapril, a new angiotensin converting enzyme (ACE) inhibitor. All doses similarly and significantly (P less than 0.05) reduced supine and erect blood pressure without increasing heart rate. The hypotensive effect was evident within 1 h, maintained for up to 8 h, with a maximal effect at 6 h. There was no discernible effect on blood pressure at 24 h after dosing. Plasma ACE activity was markedly inhibited to the same extent after all doses, with a peak inhibition of 94-96% at 2-3 h. At 24 h residual inhibition of ACE was 49-54%. Plasma renin activity increased in a dose-dependent manner with a peak at 6 h, and returned to baseline at 24 h. No correlation was found between the reduction in blood pressure and plasma renin activity, either at baseline or following cilazapril. There were no significant changes in plasma noradrenaline and the responses to upright posture and to dynamic exercise were preserved. There was no evidence of impaired exercise performance. Cilazapril is a potent ACE inhibitor with a rapid onset and a prolonged duration of action. These results suggest that peak ACE inhibition is achieved by 5 mg and that lower doses may be useful in clinical practice.     

CGS 13945: a new orally active angiotensin-converting enzyme inhibitor in normal volunteers

The new converting enzyme inhibitor CGS 13945 was evaluated in 14 male volunteers. The study consisted of two parts. First, the capacity of a single oral dose (10, 20, 50, 100, 250, or 500 mg) to inhibit the pressor response to exogenous angiotensin I was tested, with blood pressure and heart rate monitored continuously through an intra-arterial catheter. The 250-mg and particularly the 500-mg dose markedly reduced the pressor response to angiotensin I within 1/2 h and for a period exceeding 4 h. There was a close correlation between the pressor response to angiotensin I and plasma converting enzyme activity. In a second part, plasma renin and converting enzyme activity, angiotensin I and II, and plasma aldosterone were measured serially before and up to 48 h after oral administration of either 250 or 500 mg of CGS 13945 to six volunteers each. As expected, plasma renin activity and angiotensin I levels rose, while plasma converting enzyme activity and angiotensin II and aldosterone levels fell within 1/2 h. Twenty-four hours following administration of 500 mg CGS 13945, plasma converting enzyme had not quite returned to base line. No side effects were observed. CGS 13945 seems less potent than previously studied converting enzyme inhibitors, but equally effective and relatively long acting.     

Pharmacokinetics of cilazapril during repeated oral dosing in healthy young volunteers

The pharmacokinetics of cilazapril and its active metabolite cilazaprilat in plasma were investigated in an open study of 13 healthy male volunteers, aged 18 to 43 years. One capsule containing 2.5 mg cilazapril was administered to each volunteer daily for 8 days. Plasma samples were obtained after the first and eighth doses. Concentrations of cilazapril, cilazaprilat and activities of angiotensin converting enzyme (ACE) were measured by radioenzymatic methods. For cilazapril, the values of apparent plasma clearance (about 15 l/h) and volume of distribution (around 28 l) were sufficiently high to suggest that significant pre-systemic hydrolysis to cilazaprilat occurred. There were no significant changes in these values after repeated dosing. There were small, but statistically significant, increases in mean peak concentrations, mean areas under concentration-time curves and mean trough concentrations from the first to the eighth dose. A steady state was achieved after eight doses with an accumulation of 20-30%. The mean effective half-life was approximately 9 h. Despite the accumulation of cilazaprilat in plasma, there were no significant differences in plasma ACE inhibition from the first to the eighth dose.     

Biological properties of the angiotensin-converting enzyme inhibitor cilazapril

Cilazapril is the monoethyl ester prodrug form of a potent, specific. long-acting antihypertensive inhibitor of angiotensin-converting enzyme (ACE). The biochemical and pharmacological properties of this compound have been compared with those of captopril and enalapril. In all test systems, cilazapril was the most potent and the longest acting. The active diacid of cilazapril was more potent than the corresponding diacid of enalapril in inhibiting the cleavage of angiotensin I and of Hip-His-Leu by ACE in vitro, in antagonising the angiotensin I-induced contractions of the isolated ileum of the guinea pig, in potentiating the vasodepressor responses to bradykinin, and in reducing the angiotensin I-induced rise in blood pressure of the rat. Parent drug absorption and diacid bioavailability in the rat were higher than for enalapril, and the inhibition of plasma ACE of longer duration. Single doses of cilazapril were more potent than enalapril in lowering the blood pressure of spontaneously hypertensive rats (SHR) and two-kidney renal hypertensive rats. On repeated daily oral dosing to SHR, both compounds had a cumulative antihypertensive effect. The acute antihypertensive effect was enhanced by simultaneous treatment with hydrochlorothiazide.     

Acute effects of the new angiotensin-converting enzyme inhibitor cilazapril: a pilot study

This study assesses the magnitude and duration of action of three different oral doses of the new orally active angiotensin-converting enzyme (ACE) inhibitor RO 312848 (cilazapril, Hoffman-LaRoche, Nutley, NJ) on blood pressure and plasma ACE levels. Twelve hypertensive patients were separated into two groups: Group A (n = 6) received two single daily doses of 5 and 10 mg, each preceded and followed by two placebo days, and Group B (n = 6) received 10 and 20 mg on an identical protocol. The onset and duration of an appreciable blood pressure lowering effects were at 2 hours and at least for 12 hours, respectively, whereas suppression of ACE levels occurred at 1 hour and lasted for more than 72 hours. Response of these two parameters was partial after 5 mg, but was maximal after 10 mg and did not increase further with the 20-mg dose. A 5-10 mg dose daily may be sufficient to maintain chronic blood pressure control with this agent, but long-term dose trials are necessary to establish its clinical utility.     

Pharmacokinetics of temocapril hydrochloride,a novel angiotensin converting enzyme inhibitor,in renal insufficiency

Summary The pharmacokinetics of temocapril hydrochloride, a novel prodrug-type angiotensin-I converting enzyme (ACE) inhibitor, has been studied in patients with mild (Group II) to severe (Group III) renal insufficiency in comparison with subjects with normal renal function (Group I).The pharmacokinetic parameters of the active diacid metabolite, including C_max, AUC and half-life (t_1/2), showed only slight changes between the three groups: AUC (0–) was significantly larger in Group III than Group I, and t1/2 tended to be prolonged in Group III, but the change was not significant.The urinary recovery of the diacid was significantly decreased in Group III. (Group I, 28.1 %, Group II, 21.6 %, Group III, 12.8 %). Compared with other ACE inhibitors, which are mainly excreted through the kidney, the plasma concentration of the active diacid metabolite was hardly influenced by renal function. It was speculated that lowering of the dose of temocapril might be recommended only in patients with severe renal insufficiency.     

Enalapril: a new angiotensin converting enzyme inhibitor

Enalapril maleate is a new angiotensin converting enzyme inhibitor marketed in the U.S. by Merck Sharp and Dohme. It has been demonstrated to actively interfere with the renin-angiotensin-aldosterone system. This is reflected by both hemodynamic (decreased blood pressure) and humoral (increased plasma renin, angiotensin I, and decreased angiotensin II) responses to enalapril therapy. Activity in the kallikrein-bradykinin system is still controversial. Enalapril maleate is a prodrug which is quickly absorbed, hydrolyzed by the liver to the active metabolite enalaprilic acid, and excreted 33 percent in the bile and 61 percent in the urine. The therapeutic dosage range is 10-40 mg/d, maximum of 40 mg, given once or twice daily. The onset and duration of action are dose related. Vertigo and headache have been the most commonly reported side effects. Clinical comparison of enalapril to hydrochlorothiazide, beta-adrenergic blockers, and captopril find it efficacious in the treatment of essential hypertension. Efficacy in treating congestive heart failure and hypertension secondary to renal artery stenosis has also been demonstrated for both angiotensin converting enzyme inhibitors. The overall efficacy and safety of enalapril and captopril appear equivalent when used at low doses in patients with uncomplicated hypertension.     

Effects of prolonged administration of the angiotensin converting enzyme inhibitor CGS 16617 in normotensive volunteers

Summary A new, orally active angiotensin converting enzyme (ACE) inhibitor, CGS 16617, has been evaluated in normotensive subjects during acute and prolonged administration.Single ascending doses of CGS 16617 20 to 100 mg were given to 9 normotensive volunteers at one week intervals and the changes in blood pressure, plasma ACE and renin activity were examined up to 72 h after drug intake. Also, CGS 16617 50 mg/day or placebo were given for 30 days to 8 and 6 normotensive subjects, respectively, maintained on an unrestricted salt diet. Blood pressure was measured daily in the office and ambulatory blood pressure profiles were also obtained before, during and after therapy, using the Remler M 2000 blood pressure recording system.CGS 16617 was an effective and long lasting ACE inhibitor. It did not induce a consistant change in blood pressure, but, the individual responses were very variable and several subjects experienced a clear decrease in the average of the blood pressures recorded during the daytime.     

Pharmacokinetics of the angiotensin converting enzyme inhibitor benazepril.HCl (CGS 14 824 A) in healthy volunteers after single and repeated administration

The pharmacokinetics of the new angiotensin converting enzyme (ACE) inhibitor benazepril.HCl were evaluated in healthy male volunteers. The single dose kinetics were established from data of 62 subjects receiving an oral 10 mg dose of the drug. The steady state kinetics were investigated in 15 subjects after once-daily oral doses of 5, 10 or 20 mg. The compound is a prodrug which, on absorption, is hydrolysed to the pharmacologically active metabolite benazeprilat. Thus, plasma concentrations and urinary excretion of parent compound and active metabolite were determined. Benazepril.HCl was rapidly absorbed (tmax = 0.5 h) and rapidly eliminated from plasma (t1/2 = 0.6 h). Only trace amounts were excreted unchanged in urine. The drug was rapidly metabolized to benazeprilat (tmax = 1.5 h). The elimination of the metabolite from plasma was biphasic. About 80 per cent of benazeprilat formed was eliminated within 24 h (t 1/2 = 2.7 h), whereas the terminal phase (t1/2 = 22.3 h) controlled a minor amount of elimination. About 17 per cent of dose was excreted in the 24-h urine as benazeprilat. The drug disposition did not change during repeated oral dosing and only small accumulation of the metabolite occurred. The accumulation ratio was 1.20 for AUC and 1.24 for urinary excretion. The effective half-life for accumulation was estimated at about 10-11 h. The comparison with other ACE inhibitors showed similarities but also marked differences with respect to the drug kinetics and excretion.     

Effects of cilazapril, a novel angiotensin converting enzyme inhibitor, on the structure of pulmonary arteries of rats exposed to chronic hypoxia.

Chronic hypoxia is known to be associated with a thickening of the media of pulmonary arteries. The goal of the present study was to assess if cilazapril, a novel long-acting angiotensin converting enzyme (ACE) inhibitor, could prevent this thickening. For this purpose, three groups of rats were studied. One group was kept in normal room air. Two other groups were exposed to chronic hypoxia (inspired fraction of oxygen equal to 8% during 4 weeks). One group of hypoxic rats was treated with placebo and the other group received cilazapril (as food admixture of approximately 3 mg/kg/day). After 4 weeks, rats were anesthetized and pulmonary artery pressure and hematocrit measured. Then, the lungs were perfused and fixed and morphometry of the pulmonary arteries was performed. Hypoxia induced an increase in pulmonary artery pressure and hematocrit associated with a dramatic increase in the thickness of the media of the pulmonary arteries. Cilazapril completely prevented the thickening of the media of the pulmonary arteries but did not significantly decrease the pulmonary artery pressure or right ventricular weight.     

Pharmacokinetics and converting enzyme inhibition after morning and evening administration of oral enalapril to healthy subjects

Summary Possible circadian changes in the pharmacokinetics and effect on serum angiotensin-converting enzyme (ACE) activity of the ACE inhibitor enalapril have been studied in 8 healthy subjects after oral ingestion of 10 mg enalapril maleate either at 08.00 h or 20.00 h. The time to peak serum concentration (t_max) of enalapril was increased after administration at 20.00 h compared to 08.00 h (2.4 h versus 1.3 h), where as other kinetic parameters were not significantly altered. The 24 h-kinetics of the active metabolite enalaprilat did not differ significantly between the two treatments, but the area under the curve (AUC (0–24)) and the peak serum concentration (C_max) were slightly higher after intake at 20.00 h. The relationship between the measured serum enalaprilat level and the degree of inhibition of serum ACE was the same after both treatments. Overall, the evening and morning administration of enalapril did not differ markedly in the pharmacokinetics and the time course of ACE inhibition.This report is part of the thesis to be presented by K. Weisser in partial fulfillment of the requirements for the degree of Doctor of Natural Science.