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.

Hormonal, global, and regional haemodynamic responses to a vascular antagonist of vasopressin in patients with congestive heart failure with and without hyponatraemia.

The pathophysiological role of an increase in circulating vasopressin in sustaining global and regional vasoconstriction in patients with congestive heart failure has not been established, particularly in patients with hyponatraemia. To assess this further, 20 patients with congestive heart failure refractory to digoxin and diuretics were studied before and 60 minutes after the intravenous injection (5 micrograms/kg) of the vascular antagonist of vasopressin [1(beta-mercapto-beta,beta-cyclopentamethylene-propionic acid), 2-(0-methyl) tyrosine] arginine vasopressin. Ten patients were hyponatraemic (plasma sodium less than 135 mmol/l) and 10 were normonatraemic. In both groups of patients the vascular vasopressin antagonist did not alter systemic or pulmonary artery pressures, right atrial pressure, pulmonary capillary wedge pressure, cardiac index, or vascular resistances. Furthermore, there was no change in skin and hepatic blood flow in either group after the injection of the vascular antagonist. Only one patient in the hyponatraemic group showed considerable haemodynamic improvement. He had severe congestive heart failure and a high concentration of plasma vasopressin (51 pmol/l). Plasma renin activity, vasopressin, or catecholamine concentrations were not significantly changed in response to the administration of the vasopressin antagonist in either the hyponatraemic or the normonatraemic groups. Patients with hyponatraemia, however, had higher baseline plasma catecholamine concentrations, heart rate, pulmonary pressure and resistance, and lower hepatic blood flow than patients without hyponatraemia. Plasma vasopressin and plasma renin activity were slightly, though not significantly, higher in the hyponatraemic group. Thus the role of vasopressin in sustaining regional or global vasoconstriction seems limited in patients with congestive heart failure whether or not concomitant hyponatraemia is present. Vasopressin significantly increases the vascular tone only in rare patients with severe congestive heart failure and considerably increased vasopressin concentrations. Patients with hyponatraemia do, however, have raised baseline catecholamine concentrations, heart rate, pulmonary arterial pressure and resistance, and decreased hepatic blood flow.

Dose-dependent effect of atrial natriuretic peptide on blood pressure, heart rate, and skin blood flow of normal volunteers.

Synthetic atrial natriuretic peptide, containing 26 amino acids in the rat sequence, L-364, 343 (Ileu-ANP), was infused intravenously at increasing rates (1-40 micrograms/min) into four normal volunteers. Mean intraarterial blood pressure decreased and heart rate increased in cumulative-dose-dependent fashion. Skin blood flow as measured with a laser Doppler device rose already with a cumulative dose of 55 micrograms Ileu-ANP and further rises were directly related to dose. The only side effects observed were those accompanying symptomatic hypotension at higher doses. These findings provide strong evidence that Ileu-ANP acts as a vasodilator in normal volunteers.

[Hemodynamic effects of an inhibitor of the vascular effects of vasopressin in patients with congestive heart failure]. / Effets hémodynamiques d'un inhibiteur de l'effet vasculaire de la vasopressine chez des patients avec insuffisance cardiaque congestive.

To assess the role of vasopressin (AVP) in congestive heart failure (CHF), we investigated 10 patients with CHF refractory to conventional treatment, before and 60 minutes after intravenous administration of 5 micrograms/kg of d(CH2)5Tyr(Me)AVP, a specific antagonist of AVP at the vascular receptor level. Heart rate, systemic arterial pressure, pulmonary arterial pressure, pulmonary capillary wedge pressure, cardiac index by thermodilution, and cutaneous blood flow by laser-Doppler technique were measured. In 9 patients there was no significant hemodynamic and cutaneous blood flow response to the AVP antagonist. Plasma AVP was 2.3 +/- 0.8 pg/ml and plasma osmolality 284 +/- 14 mosm/kg H2O. The tenth patient had the most severe CHF. His plasma AVP was 55 pg/ml and plasma osmolality 290 mosm/kg. He responded to the AVP antagonist with a marked decrease in systemic arterial pressure from 115/61 to 79/41 mm Hg, in pulmonary arterial pressure from 58/31 to 33/13 mm Hg and in pulmonary capillary wedge pressure from 28 to 15 mm Hg. Simultaneously cardiac index increased from 1.1 to 2.21 X min-1 X m-2 and cutaneous blood flow rose 5-fold. Thus, most patients with CHF have only moderately elevated plasma AVP and its role in determining peripheral vascular resistance appears to be limited. AVP may become important in rare patients presenting with marked hemodynamic instability and very high plasma AVP.

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

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 14824A. 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.

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.

[Treatment of hypertensive crisis with captopril]. / Traitement de la crise hypertensive par le captopril.

The usefulness of captopril in managing hypertensive emergencies was evaluated in 9 untreated patients. During the 30 minutes following oral administration of 25 mg of this angiotensin converting enzyme inhibitor, blood pressure decreased from 239/134 to 204/118 mm Hg (p less than 0.05). At that time, furosemide (20 mg i.v. or 40 mg orally) had to be added in 5 patients to further decrease pressure levels. Ninety to 120 minutes after starting therapy, an additional dose of captopril (100 mg orally) was given to all patients. 12 and 24 hours after admission respectively, blood pressure averaged 140/93 and 139/86 mm Hg in the patients treated with captopril alone and 166/107 and 153/91 mm Hg in those treated with both captopril and furosemide. The blood pressure fall was well tolerated and no adverse effect was induced by captopril. These results show that captopril given alone or in association with a diuretic makes it possible to deal quickly and effectively with hypertensive crises without necessarily requiring monitoring in an intensive care unit.

[Physiopathology of the state of shock]. / Physiopathologie de l'état de choc.

Shock is a clinical state characterized by inadequate tissue perfusion due to decreased blood volume, inappropriate vasomotor tone or decreased cardiac output. If not rapidly treated this cardiocirculatory failure tends to worsen, with development of cellular damage leading to irreversibility and patient's death. The various etiologies, neurohumoral mechanisms, cellular implications and organ dysfunction observed in shock are reviewed.

[Treatment of chronic cardiac insufficiency in 1983]. / Le traitement de l'insuffisance cardiaque chronique en 1983.

Identifying and correcting the cause is the ideal treatment of the clinical syndrome of chronic congestive heart failure. Whenever such an approach is impossible or does not suffice, the next step is to suppress precipitating factors and to prescribe rest, a low salt diet, digitalis and diuretics. If the patient remains symptomatic, vasodilators such as nitrates, hydralazin, prazosin or captopril may be very helpful. The physiopathological basis for a rational and practical approach to these various stages of therapy is reviewed.

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.

The clinical application of converting enzyme inhibitors.

Chronic blockade of the renin angiotensin system became possible when orally active inhibitors of angiotensin converting enzyme, the enzyme which catalyzes the transformation of angiotensin I into angiotensin II, were synthetized. Two compounds, captopril and enalapril, have been investigated in clinical studies. The decrease of the pressor response to exogenous angiotensin I and of the circulating levels of angiotensin II following administration of these inhibitors has been demonstrated to be directly related to the degree of suppression of plasma angiotensin converting enzyme activity. These inhibitors have been shown to normalize blood pressure alone in some hypertensive patients whereas in many others, satisfactory blood pressure control can be achieved only after the addition of a diuretic. Captopril and enalapril also markedly improve cardiac function of patients with chronic congestive heart failure. Chronic blockade of the renin angiotensin system has therefore provided an interesting new approach to the treatment of clinical hypertension and heart failure.

The renin-angiotensin system in refractory heart failure: clinical, hemodynamic and hormonal effects of captopril and enalapril.

Studies using a competitive inhibitor of angiotensin II (saralasin) or converting enzyme inhibitors (teprotide, captopril, enalapril) have established that the renin-angiotensin system participates in the control of vascular tone in congestive heart failure both in experimental settings and in patients. In man, the marked decrease in left ventricular filling pressure and the variable increase in stroke volume induced by renin-angiotensin blockade suggests that angiotensin II actively constricts venous as well as arteriolar vascular beds. Captopril, in doses of 25 to 150 mg p.o. TID, maintains its efficacy during chronic administration with persistent clinical and hemodynamic improvement as well as increased exercise tolerance. In our experience, enalapril, 10 mg p.o., improves cardiac function within 4 to 6 h as reflected by a 30% decrease in left ventricular filling pressure, a 28% increase in stroke volume in the face of unchanged heart rate. Clinical improvement, enhanced exercise tolerance and characteristic hormonal responses suggest that enalapril also maintains its efficacy during long-term treatment. Chronic angiotensin II converting enzyme inhibition appears to be a major advance in the treatment of patients with severe congestive heart failure, refractory to digitalis and diuretics.

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.

Uncontrollable hypertension in patients on hemodialysis: long-term treatment with captopril and salt subtraction.

It has been suggested that an inappropriate relationship between renin and exchangeable sodium is responsible for the hypertension of patients with chronic renal failure. Long-term blockade of the renin system by captopril made it possible to test this hypothesis in 8 patients on maintenance hemodialysis. Captopril was administered orally in 2 daily doses of 25 to 200 mg. Previously, blood pressure averaged 179/105 +/- 6/3 (mean +/- SEM) pre- and 182/103 +/- 7/3 mm HG post-dialysis, despite intensive ultrafiltration and conventional antihypertensive therapy. The 4 patients with the highest plasma renin activity normalized their blood pressure with captopril alone, whereas in the 4 remaining patients, captopril therapy was complemented by salt subtraction which consisted in replacement of 1-2 liters of ultrafiltrate by an equal volume of 5% dextrose until blood pressure was controlled. After an average treatment period of 5 months, blood pressure of all 8 patients was reduced to 134/76 +/- 7/5 mm Hg (P less than 0.001) pre- and 144/81 +/- 9/5 mm Hg (P less than 0.001) post-dialysis without a significant change in body weight. The present data suggest that captopril alone or combined with salt subtraction normalizes blood pressure of patients on chronic hemodialysis with so called uncontrollable hypertension.

Three new long-acting converting-enzyme inhibitors: relationship between plasma converting-enzyme activity and response to angiotensin I.

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.

Discrepancy between antihypertensive effect and angiotensin converting enzyme inhibition by captopril.

Captopril, an inhibitor of angiotensin converting enzyme, was administered twice daily to 13 hypertensive patients for a mean period of 9 weeks. Continuous blood pressure control in the ambulatory patients was established with a portable blood pressure recorder. Notwithstanding, in eight patients with normal renal function, plasma converting enzyme was found to resume normal activity before administration of the morning dose of captopril. Only in 5 patients with impaired renal function did some blockade of plasma converting enzyme persist for more than 12 hours. Measured plasma converting enzyme activity seemed to reflect total conversion of angiotensin I, including conversion in the pulmonary vascular bed, since changes in its activity were closely paralled by changes in plasma aldosterone levels. Bradykinin accumulation seems unlikely when converting enzyme and thus, presumably, kininase II has resumed normal activity. Captopril administration does not seem to alter plasma epinephrine or norepinephrine levels. Blood pressure reduction in the face of normal angiotensin converting enzyme activity is probably due to hyporesponsiveness of the arterioles to pressor hormones, which may be due to specific renin-related and/or nonspecific effects of captopril.