Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined whether the renal protective effect of the angiotensin I converting enzyme inhibitor enalapril in stroke-prone spontaneously hypertensive rats (SHRSP) is dose-related and associated with alterations in the urinary excretion of prostaglandin (PG) E2 and 6-keto-PGF1 alpha, a stable breakdown product of prostacyclin. Enalapril maleate at 1.5, 5 and 15 mg/kg/day or vehicle was chronically administered to saline-drinking SHRSP (six per group) starting at 8.1 weeks of age. Vehicle-treated SHRSP developed severe hypertension, proteinuria and strokes (age at death, 14 +/- 1 weeks; mean +/- S.E.). Enalapril prolonged survival dose-dependently and reduced proteinuria; all SHRSP given 15 mg/kg/day lived beyond 23 weeks of age without evidence of stroke or proteinuria. There was no effect of enalapril at any dose on systolic arterial blood pressure in spite of variable levels of urinary protein excretion and onset of stroke in the different groups. Likewise, urinary 6-keto-PGF1 alpha and PGE2 excretion did not differ among the groups except for an increase in 6-keto-PGF1 alpha in the 15 mg/kg/day group at one week after initiation of enalapril therapy. These results are consistent with a dose-related renal protective action of enalapril in saline-drinking SHRSP that is not closely associated with sustained alterations in urinary excretion of renal vasodilatory PGs.
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PMID:The antiproteinuric action of enalapril in stroke-prone spontaneously hypertensive rats is unrelated to alterations in urinary prostaglandins. 154 1

1. We compared the effects, after 3 weeks oral therapy, of xamoterol 200 mg twice daily and enalapril 2.5, 5 or 10 mg twice daily on home and clinic blood pressure, glomerular filtration rate (GFR) and renal plasma flow, stroke and minute distances, linear resistance and on plasma renin activity in 19 patients with mild to moderate heart failure in a single-blind randomised crossover study. 2. Enalapril reduced mean home blood pressure by 17/7 mm Hg compared with xamoterol (P less than 0.0001) and by 19/7 mm Hg compared with placebo. Compared with placebo xamoterol had no effect. Enalapril reduced predose blood pressure, compared with xamoterol, on average by 15/5 mm Hg (P = 0.02 systolic, 0.09 diastolic) and by 20/7 mm Hg compared with placebo. At 4 h post-dose the mean differences were: xamoterol-enalapril 13/10 mm Hg (P = 0.01 systolic, 0.0007 diastolic) and placebo-enalapril 23/9 mm Hg. 3. Stroke and minute distances were marginally less 4 h following xamoterol than following enalapril: mean (s.e. mean) values were 9.4 (0.7) vs 10.4 (0.8) cm (P = 0.23) and 699 (51.7) vs 767 (62.1) cm (P = 0.04) respectively. Linear resistance was reduced by enalapril, from the placebo value of 13.2 (1.2) to 11.0 (0.9) mm Hg m-1 and marginally increased by xamoterol, to 14.2 (1.2) mm Hg m-1, the difference between active treatments being statistically significant (P = 0.03). 4. Renal plasma flow, GFR and filtration fraction were not influenced by enalapril or xamoterol therapy. There were no significant correlations between glomerular filtration rate and either blood pressure or stroke distance.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A comparison of the chronic effects of oral xamoterol and enalapril on blood pressure and renal function in mild to moderate heart failure. 167 67

Enalapril is an effective agent in the treatment of mild to severe hypertension. It is equally effective in elderly and young adult patients but appears to be more effective in white than in black hypertensive patients. Following treatment with enalapril, an assessment of maximum exercise performance found a decrease in total peripheral resistance without significant changes in cardiac output, heart rate, or stroke volume compared with pretreatment values. In addition, there have been reports of reversal of left ventricular hypertrophy in enalapril-treated hypertensive patients. Enalapril is also effective and well tolerated in hypertensive patients with renal impairment of varying etiology. The most common adverse experiences reported in controlled clinical trials were headache (5.2%), dizziness (4.3%), and fatigue (3.0%). In high-risk hypertensive patients, no enalapril-treated neutropenia, proteinuria, dysgeusia, or ageusia were reported. It may be concluded that the benefit-to-risk ratio of enalapril is among the best of the antihypertensive therapies currently available.
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PMID:Enalapril: benefit-to-risk ratio in hypertensive patients. 169 15

Enalapril 40 mg or tolerated dose was given once daily to 21 patients with congestive heart failure (CHF), NYHA class III, in addition to treatment with digoxin and/or diuretics. After an 8-week open period, 19 patients were randomized to continue enalapril or to receive a placebo in a double-blind manner. After the first enalapril dose of 10 mg, maximal reduction of blood pressure (BP) occurred after 4 hours (mean 34/17 mmHg; p less than 0.001). No further reduction was found after higher doses. After the open period significant improvement was shown as judged by NYHA class (p less than 0.01), stroke volume (p less than 0.05), maximal working capacity (p less than 0.05), heart volume (p less than 0.01) and maximum rate pressure product (RPPmax) (p less than 0.001). Urinary aldosterone markedly decreased (p less than 0.01), whereas serum potassium and serum creatinine slightly increased (p less than 0.05). At the end of the blind period enalapril was superior to placebo concerning NYHA class (p less than 0.01), heart volume (p less than 0.05) and RPPmax (p less than 0.05). Other parameters, including aldosterone in urine, did not differ between the groups. Carry-over effects may have diminished the differences between enalapril and placebo. Diarrhoea (n = 5) and hypotension (n = 5) were the most common side-effects. Overall, enalapril was well tolerated and seems to be useful in single daily doses in the treatment of CHF.
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PMID:Once daily dosing of enalapril in congestive heart failure. 283 90

Enalapril is a recently developed angiotensin-converting enzyme inhibitor that improves cardiac function at rest in patients with congestive heart failure. This study investigated the acute effects of enalapril on the cardiovascular response to exercise, and then evaluated the long-term effects of enalapril on exercise capacity and functional status during a 12 week placebo-controlled trial in patients with heart failure. Ten patients underwent hemodynamic monitoring while at rest and during incremental bicycle exercise before and after 5 to 10 mg of enalapril orally. At rest, enalapril decreased mean blood pressure 13% (p less than 0.01) and systemic vascular resistance 20% (p less than 0.05) and increased stroke volume index 21% (p less than 0.01). During maximal exercise, enalapril decreased systemic vascular resistance and increased both cardiac and stroke volume indexes. Enalapril acutely increased exercise duration (p less than 0.05) and maximal oxygen consumption (p less than 0.001). These 10 patients and an additional 13 patients were then randomized to either placebo or enalapril treatment and followed up for 12 weeks. Of the 11 patients assigned to active treatment, 73% considered themselves improved compared with 25% of the patients assigned to placebo treatment (p less than 0.02). During long-term treatment, exercise capacity increased in patients receiving enalapril (p less than 0.001) but was unchanged in patients receiving placebo (intergroup difference, p less than 0.05). During long-term treatment, no adverse effects of enalapril occurred. Thus, enalapril improves cardiac function at rest and during exercise. Compared with placebo, maintenance therapy with enalapril results in symptomatic improvement and increased exercise capacity.
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PMID:Acute and long-term effects of enalapril on the cardiovascular response to exercise and exercise tolerance in patients with congestive heart failure. 298 49

Enalapril, an orally-active, long-acting, nonsulphydryl angiotensin-converting enzyme (ACE) inhibitor, is extensively hydrolysed in vivo to enalaprilat, its bioactive form. Bioactivation probably occurs in the liver. Metabolism beyond activation to enalaprilat is not observed in man. Administration with food does not affect the bioavailability of enalapril; excretion of enalapril and enalaprilat is primarily renal. Peak serum enalaprilat concentrations are reached 4 hours post-dose, and the profile is polyphasic with a prolonged terminal half-life (greater than 30 hours) due to the binding of enalaprilat to ACE. Steady-state is achieved by the fourth daily dose, with no evidence of accumulation. The effective accumulation half-life following multiple dosing is 11 hours. Higher serum concentrations and delayed urinary excretion occur in patients with severe renal insufficiency. Enalapril reduces blood pressure in hypertensive patients by decreasing systemic vascular resistance. The blood pressure reduction is not accompanied by an increase in heart rate. Furthermore, cardiac output is slightly increased and cardiovascular reflexes are not impaired. Once- and twice-daily dosage regimens reduce blood pressure to a similar extent. Enalapril increases renal blood flow and decreases renal vascular resistance. Enalapril also augments the glomerular filtration rate in patients with a glomerular filtration rate less than 80 ml/min. Enalapril reduces left ventricular mass, and does not affect cardiac function or myocardial perfusion during exercise. There is no rebound hypertension after enalapril therapy is stopped. Enalapril does not produce hypokalaemia, hyperglycaemia, hyperuricaemia or hypercholesterolaemia. When combined with hydrochlorothiazide, enalapril attenuates the undesirable diuretic-induced metabolic changes. Therapeutic doses of enalapril do not affect serum prolactin and plasma cortisol in healthy volunteers or T3, rT3, T4 and TSH in hypertensive patients. Enalapril has natriuretic and uricosuric properties. The antihypertensive effect of enalapril is potentiated by hydrochlorothiazide, timolol and methyldopa, but unaffected by indomethacin and sulindac. No interactions occur between enalapril and frusemide, hydrochlorothiazide, digoxin and warfarin. The bioavailability of enalapril is slightly reduced when propranolol is coadministered, but this does not appear to be of any clinical significance. Enalapril increases cardiac output and stroke volume and decreases pulmonary capillary wedge pressure in patients with congestive heart failure refractory to conventional treatment with digitalis and diuretics.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Enalapril: a review of human pharmacology. 299 84

Antihypertensive effect of enalapril (MK-421), an orally active non-sulfhydryl-containing converting enzyme inhibitor, was examined in stroke-prone spontaneously hypertensive (SHRSP) rats. The treatment was started at 14-15 weeks of age with tail blood pressure over 240 mmHg and was continued for 11 weeks. We used captopril as the reference drug. The dose of enalapril and captopril was 10 and 30 mg/kg per day, p.o., respectively. Enalapril showed a sustained antihypertensive effect from the 1st to the 11th week of the treatment. This antihypertensive effect was substantiated by the good increase in body weight; decrease in heart weight; decrease in incidences of vascular disease, nephrosclerosis, stroke and death. Enalapril treatment also prevented the increases in urine volume, and excretion of osmotically active solutes, Na, Cl and K with age. Captopril treatment showed about the same antihypertensive effect. No side effects were seen in the enalapril or captopril treated group. The antihypertensive potency of enalapril was about 3 times more than that of captopril. Enalapril and captopril slightly increased plasma renin concentration. Urinary excretion of PGE2 was not changed by enalapril or captopril treatment. These results clearly demonstrate the efficacy of long-term treatment with enalapril to prevent development of malignant hypertensive cardiovascular disease in SHRSP rats.
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PMID:Chronic effects of enalapril on blood pressure, stroke, plasma renin, urinary electrolytes and PGE2 excretion in stroke-prone spontaneously hypertensive rats. 299 88

Enalapril (MK-421) is a new angiotensin converting enzyme inhibitor which effectively lowers elevated blood pressure and might also be useful in heart failure. Enalapril was infused into six awake dogs 2 hours after left circumflex coronary artery embolization (acute failure group) and into six other awake dogs two to six months after coronary embolization (chronic failure group). In the acute failure group 2 hours after embolization, increased left ventricular end-diastolic pressure and reduced cardiac output remained unchanged during enalapril infusion. In the chronic failure group, increased left ventricular end-diastolic pressure also remained unchanged during enalapril infusion, but cardiac output, which had fallen to 131.8 +/- 11.9 (S.D.) from 165.8 +/- 17.9 ml/min/kg (P less than 0.01) by two to six months in this group rose during enalapril infusion to 154.5 +/- 27.7 ml/min/kg (P less than 0.05). Heart rate and blood pressure were not changed during enalapril in either group, but stroke volume rose (26.0 +/- 5.9 to 29.2 +/- 6.9 ml, P less than 0.01) and systemic vascular resistance fell (58.5 +/- 10.3 to 39.3 +/- 4.3 units, P less than 0.01) during enalapril only in the chronic failure group. Plasma renin activity after embolization was slightly but not significantly higher in the acute failure group. Thus, enalapril appears to be an arterial vasodilator in dogs with chronic but not acute left ventricular failure.
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PMID:Effects of a new angiotensin converting enzyme inhibitor, enalapril, in acute and chronic left ventricular failure in dogs. 630 67

Systolic time measurements, echocardiography, and bicycle exercise testing with cardiac output determinations (CO2 rebreathing) were used to evaluate cardiac performance in 16 male hypertensives at the end of a 4-wk placebo period and after 12 wk of treatment with increasing doses (maximum = 40 mg/day) of enalapril maleate (N = 11) and of placebo (N = 5). The effect of exercise on plasma renin activity (PRA) and plasma norepinephrine (NE) concentration was also measured. Mean arterial pressure was reduced by 10 mm Hg or more in all but one subject who received enalapril. In both the enalapril- and placebo-treated subjects, the preejection period/left ventricular ejection time ratio and fractional shortening of the left ventricle at rest and cardiac output and stroke volume during moderate exercise did not change during the study. Enalapril induced a compensatory rise in PRA (N = 10). Compared to plasma NE concentration, 1124 +/- 380 pg/ml (mean +/- SD), during exercise at the end of the initial placebo period, there was attenuation of the rise of plasma NE concentration, 851 +/- 290, at the same load of exercise during enalapril therapy. Unchanged cardiac performance despite effective long-term lowering of blood pressure with enalapril may relate to inhibition of angiotensin II-mediated facilitation of NE release from peripheral nerve endings.
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PMID:Cardiac and hormonal effects of enalapril in hypertension. 631 74

Our previous studies showed that imidapril prevented the occurrence of cerebral stroke and ameliorated biochemical parameter changes of renal dysfunction at a dose that did not inhibit the progression of hypertension in salt-loaded stroke-prone spontaneously hypertensive rats (SHRSP). To confirm these findings, a histopathological investigation was conducted on the kidney of salt-loaded (from 11 to 16 weeks of age) SHRSP, which was the subject of the preceding study. Their brains and hearts were also examined. Histopathologically, renal lesions such as fibrinoid necrosis and proliferative arteritis of small calibration arteries, necrotizing glomerulitis and tubular degeneration, and cerebral hemorrhage and slight cardial hypertrophy were observed in salt-loaded control SHRSP. The occurrence of these lesions were prevented in a dose-dependent manner by the administration of imidapril (1 and 2 mg/kg/day). Especially, the preventive effects on the renal lesions were apparently noted. Enalapril also prevented these renal lesions, but its preventive effects were weaker than those of imidapril at the same dose (2 mg/kg/day). It became evident from the results of the present and previous studies that imidapril reduced renal biochemical and histopathological injuries.
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PMID:Histopathological investigation on salt-loaded stroke-prone spontaneously hypertensive rats, whose biochemical parameters of renal dysfunction were ameliorated by administration of imidapril. 786 7


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