UMLS:C0018801 - FACTA Search

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Coronary hemodynamics (coronary blood flow, coronary reserve, myocardial oxygen consumption) were analyzed in both experimental and clinical essential hypertension. Significant reduced coronary reserve was found in hypertensive patients with left ventricular hypertrophy. Extracoronary reasons for these phenomena were ruled out. Considerable thickening of the coronary resistance vessels (medial hypertrophy) in hypertensive hypertrophy associated with a marked increase in the wall thickness/radius ratio was considered sufficient to explain the impairment of coronary flow. After long-term pharmacotherapy there was normalization of both medial hypertrophy and coronary reserve. This small-vessel abnormality correlates well with clinical findings in hypertensive heart disease (angina and electrocardiographic changes despite normal coronary arteriogram). Moreover, this structural adaptation of the small vessels may carry the inherent risk of an impaired oxygen supply to the hypertrophied myocardium. Thus, late cardiac failure of the hypertrophied heart in hypertension may be attributed, in part, to this microcirculation disorder. Conversely, reversal of left ventricular hypertrophy and of hypertrophy of vascular smooth muscle by specific pharmacotherapy can be considered a possible approach to the rational prevention of cardiac failure in hypertensive patients. For future investigations, controlled clinical trials are needed to confirm these findings with regard to prevention of heart failure, and pharmacotherapeutic studies are necessary to define the optimal drug regimen for reversal of vascular smooth muscle hypertrophy.
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PMID:Significance of coronary circulation in hypertensive heart disease for development and prevention of heart failure. 213 55

Atrial natriuretic factor (ANF) is a cardiac hormone exerting potent cardiovascular and renal effects but its poor intestinal absorption and rapid inactivation have prevented so far its therapeutic utilisation. However inhibition of endogenous ANF metabolism progressively emerges as a novel therapeutic approach in cardiovascular and renal disorders. The critical role played by enkephalinase (membrane metalloendopeptidase, EC 3.4.24.11) in ANF inactivation was deduced from the effects of inhibitors. These compounds not only protect partially exogenous ANF from hydrolysis by some tissue preparations in vitro but also, in vivo, they increase the half-life of the exogenous hormone in plasma and, even more markedly, its recovery in intact form in kidney, a major target organ. In addition, enkephalinase inhibitors increase by two- to three-fold the circulating level of endogenous ANF, even when the latter is already markedly elevated, such as in patients with chronic heart failure. Finally, enkephalinase inhibitors induce a series of ANF-like responses such as natriuresis, diuresis or increase in cGMP excretion which are attributable to the hormone. These pharmacological observations, as well as preliminary clinical trials, suggest that enkephalinase inhibitors may represent a novel class of therapeutic agents with potential applications in congestive heart failure, essential hypertension and various sodium-retaining states.
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PMID:Enkephalinase (EC 3.4.24.11) inhibitors: protection of endogenous ANF against inactivation and potential therapeutic applications. 214 57

The effects of angiotensin-converting enzyme (ACE) inhibitors on renal hemodynamics vary widely depending on the preexisting physiologic and pathologic state of the kidneys. Although some studies of ACE inhibitors in primary essential hypertension have demonstrated increases in glomerular filtration rate (GFR) and effective renal plasma flow in patients with renal impairment, other studies have not shown these same beneficial results. The difference may involve the choice of ACE inhibitor used in the investigations, but controlled comparison trials are needed to determine whether this is the case. The use of ACE inhibitors in renovascular hypertension remains controversial. ACE inhibition can interfere with the autoregulation of GFR mediated by angiotensin II and may lead to deterioration of renal function, especially in patients with bilateral renal artery stenosis or stenosis of a solitary kidney. Additionally, ACE inhibitors have been shown to cause a decline in GFR in the kidney affected by the stenosis, whether or not clinically apparent renal insufficiency occurs. Although the functional impairment associated with ACE inhibitors in renal artery stenosis has generally been reversible following removal of the drug, the consequences of a long-term reduction in GFR are unknown. Treatment of stable congestive heart failure (CHF) with ACE inhibitors can result in enhancement of GFR and reduction of sodium and fluid retention, thus improving the clinical state. However, in patients with decompensated cardiac failure, renal perfusion pressures may already be at or near the autoregulatory breakpoint and ACE inhibition may cause deterioration of renal function. In general, ACE inhibitors can be used safely in CHF if they are initiated cautiously, with adjustment of ACE inhibitor and diuretic dosages to avoid systemic hypotension and sodium and fluid depletion. In studies comparing the agents, enalapril and lisinopril have both been shown to cause higher incidences of renal function deterioration than has captopril. These findings suggest that the more complete or sustained ACE inhibition seen with the longer-acting agents may be detrimental to renal function in patients with CHF. The use of ACE inhibitors in the treatment of proteinuria is the newest area of research with these agents. At present it appears that ACE inhibitors reduce urinary protein excretion the most effectively in diabetic patients with mild proteinuria and in hypertensive patients with renal insufficiency and proteinuria due to glomerular disorders. More study is needed to determine whether these agents can reduce the rate of renal failure progression and to define the patient populations expected to benefit most.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Angiotensin-converting enzyme inhibitors and renal function. 218 38

Recently there has been extensive development of orally active angiotensin converting enzyme (ACE) inhibitors in addition to those already marketed, for example, captopril, enalapril, lisinopril and ramipril. It was initially thought that ACE inhibitors were likely to be most useful as antihypertensive agents in conditions in which circulating renin and angiotensin II were elevated. However, it is now clear that they can also lower arterial pressure when plasma renin is not high. In addition, they have beneficial effects in cardiac failure. Thus, captopril, enalapril, lisinopril and ramipril can be used in the treatment of mild to moderate hypertension either alone or in conjunction with diuretics or calcium antagonists. Broadly speaking, efficacy appears to be similar to that of beta-blockers or diuretics. Unfortunately, however, there are no long term studies comparing one ACE inhibitor with another or with other classes of antihypertensive agents. Furthermore, there are no prognostic studies which show that use of ACE inhibitors reduces morbidity or mortality in hypertension. Many new ACE inhibitors are undergoing clinical assessment, including alacepril, cilazapril, fosenopril, perindopril, quinapril and ramipril. The drugs vary, in that some exist in the active form whereas others are prodrugs which are converted to the active agent following absorption. In addition they each possess one of several ligands, for example, carboxyl, phosphinyl or sulfhydryl groups, and so vary in their affinity for ACE. Although many of these agents are renally excreted, a small number are metabolised via the liver (e.g. quinapril and spirapril) and this may prove advantageous in the presence of renal impairment. In common with captopril and enalapril, the new ACE inhibitors inhibit the renin-angiotensin system and initial results suggest that they are effective in lowering blood pressure in essential hypertension. Furthermore, they reduce systemic vascular resistance in the absence of a reflex tachycardia. There are a number of adverse effects which are attributable to the pharmacological mechanism of the ACE inhibitors as a group; these include hypotension, particularly in patients with high renin levels, prior diuretic use, renal impairment or in the elderly. Additional adverse effects may relate to chemical structure. The high incidence of adverse effects noted in early studies related to excess dosage and to the presence of a sulfhydryl group, which the more recently developed ACE inhibitors lack. The adverse effects most commonly reported with established and new ACE inhibitors include headache and fatigue, cough, skin rashes, hypotension and diarrhoea. As a group, ACE inhibitors have an acceptable but not negligible adverse effect burden.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Angiotensin converting enzyme inhibitors and moderate hypertension. 222 19

1. The central and regional cardiovascular responses to intravenous (0.3, 1.0, 3.0 and 10.0 micrograms kg-1 min-1) and intracoronary (0.3, 0.9, 3.0 and 4.5 micrograms kg-1 min-1) infusions of elgodipine, a phenyldihydropyridine, and its solvent were studied in anaesthetized pigs. 2. Elgodipine (i.v.) caused dose-dependent decreases in arterial blood pressure (up to 44%) and systemic vascular resistance (up to 48%), whereas heart rate, LV dP/dtmax, left ventricular filling pressure, cardiac output and segment length shortening did not change. The absence of a negative inotropic effect with the employed doses was confirmed by the intracoronary infusions; with the lowest dose (0.3 micrograms kg-1 min-1) both LV dP/dtmax and segment length shortening decreased by less than 10%. With 0.9 micrograms kg-1 min-1 (intracoronary) the negative inotropic properties of the drug became apparent as LV dP/dtmax and segment length shortening decreased by 20% and 33%, respectively, whereas heart rate and left ventricular filling pressure were not affected. 3. Transmural myocardial blood flow did not change during intravenous infusion of elgodipine, as vasodilatation, more pronounced in the subepicardial than in the subendocardial layers, compensated for the decrease in arterial perfusion pressure. The intracoronary infusions revealed that the decrease in normalized subendocardial/subepicardial blood flow ratio was not secondary to the fall in arterial blood pressure. 4. Myocardial oxygen consumption decreased during both the i.v. and the intracoronary administration of elgodipine. With the i.v. administration the decrease was secondary to the hypotensive action of the drug, whereas with the intracoronary administration the negative inotropic properties played the dominant role. 5. Elgodipine (i.v.), although not affecting total cardiac output, caused a redistribution in favour of the nutritional blood flow at the expense of the arteriovenous anastomotic (AVA) blood flow. Up to an infusion rate of 3.0upg kg - I min- 1 the decrease in AVA-flow was due to a fall in arterial blood pressure, but at the highest infusion rate both the decrease in arterial perfusion pressure and an increase in their resistance contributed to a further decrease in AVA blood flow. 6. The skeletal muscles benefited most from the elgodipine(i.v.)-induced increase in nutritional blood flow, but vasodilatation was not uniform for all muscle groups. Up to an infusion rate of 3 yg kg - ' min- 1 the vasodilatation in the renal vascular bed was more pronounced in the inner than in the outer cortex, but, at 0 pyg kg-1 min-, vascular resistances of both cortical layers returned to baseline values. In all regions of the brain, blood flow was maintained until the highest infusion rate was given. With 10 yg kg- I min - ' only flow to the vital parts of the brain (diencephalon and brain stem) was maintained. Blood flows to the skin and various abdominal organs were well maintained up to 3 pg kg'- min - 1 but, at the highest dose, a decrease was observed in blood flow to the adrenals and spleen. Vascular resistances of all these organs and tissues decreased dose-dependently. 7. The potent systemic and coronary vasodilator actions of elgodipine during i.v. administration, which were not accompanied by negative inotropic and positive chronotropic properties or decreases in the perfusion of vital organs, warrant further study as this compound could be useful in the treatment of essential hypertension, myocardial ischaemia and, possibly, moderate chronic heart failure.
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PMID:The central and regional cardiovascular responses to intravenous and intracoronary administration of the phenyldihydropyridine elgodipine in anaesthetized pigs. 232

Perindopril is an orally active, non-thiol angiotensin-converting enzyme (ACE) inhibitor, which in doses of 4 to 8mg is effective in the control of essential hypertension. As monotherapy it is as effective as once-daily atenolol and possibly more effective than twice-daily captopril. A synergistic response has been noted when perindopril is combined with a thiazide diuretic. Maximal pharmacodynamic effects (ACE inhibition, increase in plasma renin activity and angiotensin I, reduction in aldosterone and angiotensin II and blood pressure) are seen 4 to 6 hours after dosing, with substantial effects still present at 24 hours. Perindopril is a prodrug which requires de-esterification to perindoprilat for useful ACE inhibition. Maximal plasma perindoprilat concentrations are reached 2 to 6 hours after oral administration of perindopril, and 70% of the active metabolite is cleared by the kidneys. The other major metabolite of perindopril is an inactive glucuronide. Ageing is associated with increased serum perindoprilat concentrations, which are probably caused by a combination of enhanced conversion to the active metabolite and diminished renal clearance. Compensated cirrhosis does not appear to have an independent effect. There is little published experience of the use of perindopril in patients with cardiac failure or other cardiac disease, but preliminary evidence would support the general value of this class of agent as adjunctive therapy.
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PMID:Perindopril. A review of its pharmacokinetics and clinical pharmacology. 240 93

The possibility of exploiting the cardiovascular and renal action of dopamine for therapeutic purposes is enhanced by its conversion into orally active prodrugs. Following an outline of the medicinal chemistry bases of the development of these prodrugs, laboratory and clinical pharmacology of ibopamine, levodopa, gludopa, and TA-870 are reviewed, pointing out the interesting indications of various preliminary studies in heart failure, essential hypertension, and renal failure on the one hand, and the extensive therapeutic experience with ibopamine as an "inodilator" in the chronic treatment of congestive heart failure on the other hand. New experimental results are also reported for ibopamine and for the novel prodrug Sim 2055, i.e., epinine-4-O-phosphate. The latter is shown to act as a selective renal vasodilator on oral administration in dogs and it is therefore proposed for clinical investigation in renal failure and in essential hypertension.
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PMID:Cardiovascular and renal action of dopaminergic prodrugs. 248 41

The renin-angiotensin system has a wide range of physiological actions, and thus interference with the system has attractive therapeutic potential. The orally active angiotensin converting enzyme (ACE) inhibitors have so far been the most successful drugs in this area. They lower arterial pressure both in renovascular and essential hypertension, and their effects are enhanced by concomitant diuretic therapy or dietary salt restriction. Since, in renovascular hypertension, the affected kidney depends on enhanced local generation of angiotensin II to help preserve its function, the circulation and excretory capacity of this kidney may be compromised with ACE inhibition. ACE inhibitors can improve exercise tolerance and diminish cardiac ventricular arrhythmias in patients with heart failure. Because these drugs lower plasma aldosterone, they tend to correct potassium deficiency and hypokalemia, which may have been induced by diuretic treatment. Hypotension can occur with the first dose of ACE inhibitor, especially in sodium-depleted subjects; in patients on prior antihypertensive therapy, particularly if this includes a diuretic; and in the elderly. Not all of the actions of ACE inhibitors are necessarily due to lowering of plasma angiotensin II: accumulation of kinins may be responsible for some of the effects and side effects. Common to all ACE inhibitors are occasional rashes, cough, and, more rarely, angioedema. Apparently peculiar to captopril, and less often seen with the lower doses now employed, are taste disturbance, proteinuria, and marrow depression. ACE inhibitors, should not be used in pregnant women.
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PMID:Converting enzyme inhibitors in the treatment of hypertension. 248 62

To assess the hemodynamic characteristics in malignant hypertension, echocardiography was performed in 18 patients with malignant essential hypertension (MH-I, n = 9) and secondary hypertension (MH-II, n = 9). Patients with benign hypertension with or without left ventricular hypertrophy (n = 8 and 7, respectively), patients with hypertensive heart failure (n = 7) and normotensive volunteers (n = 10) were subjected to controls. Plasma noradrenaline (NA) and renin activity (PRA) were also measured prior to the antihypertensive therapy. There were no significant differences in the durations of hypertension before the malignant phase, and the mean arterial pressure between MH-I and MH-II. Although posterior wall thickness (PWTd) in MH-II was similar to that in MH-I, interventricular septal thickness (IVSTd) was less marked in MH-II. The plasma NA and PRA were markedly increased in both MH-I and MH-II. End-diastolic dimension (Dd) of the left ventricle was within normal range, but end-systolic dimension (Ds) was significantly increased in MH-I, MH-II and hypertensive heart failure. The moderate decreases in ejection fraction (EF) and mean velocity of circumferential fiber shortening (mVcf) were observed in both MH-I and MH-II. Marked decreases in EF and mVcf were also observed in patients with hypertensive heart failure. The relationship between systolic blood pressure and Dd/PWTd was shifted toward the right and upper portion of the normal relation in MH-I and MH-II. The present study demonstrated that the hemodynamic characteristics in malignant hypertension are an inappropriate left ventricular hypertrophy due to a marked increase in systolic stress; dilatation of the left ventricle in systole; and a moderate decrease in ventricular systolic function. It is suggested that a decrease in left ventricular systolic function in malignant hypertension might be due in part to a marked increase in the influence of neurohumoral factors on hemodynamics.
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PMID:[Echocardiographic features of left ventricular hypertrophy and contractility in malignant hypertension]. 253 Mar 33

Epidemiologic studies revealed that up to 10 percent of middle-aged men show more than 10 cessations of breathing of more than 10 seconds' duration. In these patients, increased morbidity and mortality rates have been proved. More than 50 percent of apnea patients exhibit arterial hypertension, and up to 50 percent of hypertensive patients experience sleep apnea. Patients with sleep apnea and essential hypertension need special attention paid to their antihypertensive therapy because the following side effects of drugs have to be avoided: increases of cardiac insufficiency, hyperviscosity of the blood, intensification of the hypersomnia by central sedation, intensification of a pre-existing tendency towards arrhythmias, and deprivation of deep and rapid eye movement sleep. In this study, the effects of angiotensin-converting enzyme inhibitors in patients with sleep apnea and hypertension are examined. An interim evaluation of six patients (aged 50 to 57) yielded the following results: Average Broca index, 124; average blood pressure before therapy, 159/102 mm Hg; average blood pressure after therapy, 132/78; a decrease of the apnea and hypopnea index from x = 31 (range, 12 to 77) to x = 20 (range, two to 54). Therapy did not influence sleep structure: before therapy, an average of 19 percent of sleep episodes were of the rapid eye movement type (range, 11 to 32 percent); after therapy, 23 percent were of this type on average (range, 21 to 25 percent). A final evaluation will be carried out after the second study phase for 12 patients who have been treated in a double-blind scheme with metropolol versus cilazapril.
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PMID:Effects of cilazapril on hypertension, sleep, and apnea. 253 65

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