Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
 18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Therapeutic approaches to the management of heart failure have traditionally focused on shortterm hemodynamic and symptomatic goals, but present evidence suggests that most therapeutic decisions have long-term consequences. Treatment may change the rate of disease progression, modify the need for additional therapy, influence the number of hospitalizations, and alter the risk of death. However, there may be little relation between a drug's short-term effect on cardiac function or cardiovascular symptoms and its long-term effect on survival. Some therapeutic interventions favorably influence the outcome of patients with heart failure, even though they exert negative inotropic effects; others adversely affect the outcome of patients, even though they markedly improve cardiac performance. This discordance might be explained if the most important predictor of response to a therapeutic intervention in heart failure were the effect of the pharmacologic agent on neurohormonal systems rather than on hemodynamic variables. In general, drugs that decrease the effects of the sympathetic nervous system (digitalis glycosides) and the renin-angiotensin system (angiotensin-converting enzyme [ACE] inhibitors) reduce the risk of worsening heart failure. Conversely, drugs that potentiate the effects, or increase the activity, of the sympathetic nervous system (phosphodiesterase inhibitors) or the renin-angiotensin system (calcium antagonists) increase cardiovascular morbidity and mortality. These observations suggest that physicians should no longer focus on short-term hemodynamic or symptomatic goals in the treatment of heart failure but, instead, should manage patients to improve both the quality and quantity of life.
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PMID:Long-term strategies in the management of heart failure: looking beyond ventricular function and symptoms. 162 88

Treatment of patients with heart failure due to major ventricular systolic dysfunction should aim not only at symptomatic but also at prognostic improvement. If correction of the underlying problem is not possible, treatment should slow down the progression of cardiac failure and eliminate triggers for sudden cardiac death due to electromechanical dissociation or arrhythmias. In every patient with chronic congestive heart failure screening for myocardial ischemia and complete revascularization is mandatory, if possible. In patients with coronary artery disease and diminished systolic function, beta-blockade may improve prognosis by reducing ischemic events and sudden cardiac death. The incidence of life-threatening arrhythmias in patients with heart failure may be reduced by eliminating facilitating factors like electrolyte disturbances, altered autonomic tone and raised intracardiac pressure rather than by antiarrhythmic medical treatment itself. One of the most important prognostic aspects in treatment is the interference with the development of the cardiomyopathy of overload, uniformly observed in chronic congestive heart failure. Modification of mechanical and neuroendocrine stimuli may postpone myocardial hypertrophy and interstitial hyperplasia as a consequence of altered gene expression. Early treatment with ACE inhibitors and in certain patients with betablockers are the most promising strategies to delay the progression of the disease. In contrast, positive inotropic drugs, including digitalis and phosphodiesterase inhibitors, do not improve prognosis. Calcium antagonists should also be used with restriction, as Verapamil and Diltiazem, but also Nifedipine may adversely affect the outcome in congestive heart failure patients.
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PMID:[Prognostic aspects in the treatment of chronic heart insufficiency]. 173

In severe chronic heart failure, myocardial beta-adrenoceptors are downregulated and G-proteins inhibiting adenylate cyclase activity are augmented. Because of these biochemical changes, all positive inotropic drugs that need cAMP for their contractile effects lose their efficacy. Among the positive inotropic drugs used today for treatment of heart failure, only cardiac glycosides remain effective without development of tolerance as long as enough contractile myocardium is left. Controlled studies with phosphodiesterase III inhibitors (milrinone and enoximone) have revealed an unfavorable prognosis in these patients in comparison to placebo. Thus, these drugs are not indicated in chronic heart failure. In higher classes of chronic heart failure, therapy should always be a combination of diuretics, digitalis, and ACE-inhibitors.
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PMID:[Positive inotropic substances--therapeutic perspectives]. 179 36

Vasodilators have been shown to improve hemodynamics of the failing heart as a short-term effect and to decrease mortality as a long-term result. We therefore studied the effect of different vasodilators on myocardial mechanics and energetics in patients with idiopathic dilated cardiomyopathy (IDC) NYHA II to III. In these patients undergoing routine heart catheterization myocardial oxygen consumption was measured using the argon method, and left ventricular pressure and geometry were obtained from left ventricular angiography using a Millar tip microcatheter. All data were analyzed for one single heart beat. The best correlation was found between MVO2/beat and the systolic stress-time integral which considers left ventricular pressure, wall thickness, and geometry. The relation between MVO2/beat and peak systolic wall stress was less relevant. No correlation was found between MVO2/beat and pressure-volume work, dP/dtmax, and mean velocity of circumferential fiber shortening. The intravenous application of nitroprusside and the ACE-inhibitor benazepril decreased both the systolic stress-time integral and the myocardial oxygen consumption in proportion to each other indicating unchanged economy of myocardial contraction. In contrast to other vasodilators, beta 1-agonists and phosphodiesterase inhibitors increase myocardial oxygen consumption independently of changes in the stress-time integral. In conclusion, vasodilators decrease left ventricular pressure and chamber size and thereby proportionally reduce MVO2/beat. The reduction of energy needed for myocardial contraction may partially explain the long-term effects of the ACE-inhibitors and combinations of vasodilators. Pure positive inotropic substances, especially beta 1-agonists, increase myocardial oxygen consumption with minor changes of systolic stress-time integral.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Left ventricular geometry, myocardial function and energetics of the dilated left ventricle. Influence of vasodilators and positive inotropic substances. 182 Feb 96

Vasodilators have been shown to improve hemodynamics of the failing heart as a short-term effect, and to decrease mortality as a long-term result. We, therefore, studied the effects of vasodilators and inotropic agents on myocardial mechanics and energetics in patients with congestive heart failure New York Heart Association (NYHA) classes II-III. In these patients, who underwent routine heart catheterization, myocardial oxygen consumption was measured using the argon method, and LV pressure and geometry were obtained from LV angiography using a Millar microtipped catheter. All data were analyzed for one single heart beat. The best correlation was found between MVO2/beat and the systolic stress-time integral which considers LV pressure, LV wall thickness, and LV geometry. The relation between MVO2/beat and peak systolic wall stress was less relevant. No correlation was found between MVO2/beat and pressure-volume work, dP/dtmax, and mean velocity of circumferential fiber shortening. The intravenous application of nitroprusside and the ACE-inhibitor benazepril decreased both the systolic stress-time integral and the myocardial oxygen consumption in proportion to each other, indicating unchanged economy of myocardial contraction. In contrast, beta 1-agonists and phosphodiesterase inhibitors increased myocardial oxygen consumption independently of changes in the stress-time integral. In conclusion, vasodilators decrease LV pressure and chamber size and thereby proportionally reduce MVO2/beat. The reduction of energy needed for myocardial contraction may partially explain the long-term effects of the ACE-inhibitors and combinations of vasodilators. Pure inotropic substances, especially beta 1-agonists, increase myocardial oxygen consumption with only minor changes of systolic stress-time integral.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Energetic consequences of substances currently used or recommended for long-term treatment of chronic heart failure. 182 77

In the treatment of heart failure-also in the aged-digitalis preparations remain indispensable. At the present time, in particular in combination with diuretics and ACE inhibitors, they are experiencing a revival in the treatment of severe stages (NYHA stages III and IV). In addition, a spectrum of newly developed positive inotropic substances of various classes is now available. Among the catecholamines, apart from dopamine, dobutamine and their derivatives, new drugs with a beta-adrenergic agonistic effect are presently undergoing clinical testing. Another heterogeneous group of substances combine positive inotropic with vasodilatory properties. In this connection, mention might be made of the phosphodiesterase inhibitors, the H2 receptor antagonists, and certain catecholamine derivatives. However, digitalis remains the only substance that can be given orally over the long-term without tolerance developing. Particular aspects of the use of digitalis in geriatric patients are discussed.
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PMID:[Positive inotropic substances. Possible use in heart failure in the aged]. 193 36

The therapeutic concepts of congestive heart failure (CHF) are based on an increase in myocardial contractility and a decrease in pre- and afterload. Besides the digitalis glycosides, diuretics and vasodilators such as nitrates, hydralazine, ACE-inhibitors, calcium antagonists or prazosine are used. Furthermore, the so-called inodilators such as phosphodiesterase III inhibitors (amrinone, milrinone), dopaminergic and beta-adrenergic receptor agonists were introduced into therapy. The boone and bane of the different classes of drugs were discussed with respect to their hemodynamic and clinical properties.
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PMID:Review: therapeutic concepts of congestive heart failure. 197 88

Cardiac muscle cell hypertrophy, hyperplasia of connective tissue, abnormal peripheral circulation and metabolic changes in the cardiac fibre and in the smooth muscle cell as a consequence of mechanic overload are described in variable proportions in heart failure. These changes in turn are essential factors for progression of the disease. Results of early drug intervention in patients with few or no symptoms suggest that decrease of mechanic overload by vasodilator therapy slows down the progression of the disease. In late stages, treatment with diuretics and vasodilators improves the symptoms and the outcome of heart failure. Diuretics alone and inotropic positive substances bring about some improvement of symptoms and maximal oxygen consumption, but they have no favourable effect on the outcome. Positive inotropic substances remain restricted to late forms of heart failure, in which they seem to ameliorate symptoms but have a rather unfavourable effect on the outcome. The role of diuretics, ACE inhibitors and digoxin is well defined. This is not the case for newer calcium-channel blockers from the dihydropyridine group, of beta blockers, of phosphodiesterase inhibitors and of substances with partial beta agonist and partial beta blocking activity. These drugs must still be classified as experimental agents for the treatment of heart failure.
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PMID:[Current problems of pharmacotherapy--heart failure]. 197 5

Previous studies have demonstrated the high prevalence of frequent and complex ventricular arrhythmias in patients with severe congestive heart failure. It has been claimed that these arrhythmias are independent risk factors of prognosis. Moreover in severely depressed left ventricular function frequent and repetitive arrhythmias may deteriorate the hemodynamic situation. Recent clinical studies have drawn increasing attention to the possibility that the desired therapeutic effect of Class I antiarrhythmic agents may be complicated by their ability to aggravate the arrhythmia or to provoke new arrhythmias. These "proarrhythmical effects" were more frequent in patients with life-threatening arrhythmias and in those with severely depressed left ventricular function. Prevention trials with Class I antiarrhythmic agents have failed to show beneficial effects on the arrhythmia profile and on the prognosis of those patients. On the other hand, it is now well recognized that the incidence of cardiac death can be reduced by the use of ACE-inhibitors in this patient population. Accordingly, there is evidence of a reduced incidence of complex ventricular arrhythmias during treatment with these drugs in some of the patients with congestive heart failure. The influence of digitalis on the arrhythmia profile and the cardiac mortality in these patients is still a matter of debate. On the other hand, there is evidence that newer positive inotropic agents such as phosphodiesterase-inhibitors rather increase the number of arrhythmias and the prevalence of sudden cardiac death in this patient population.
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PMID:[How are tachycardic cardiac arrhythmias modified by therapy of congestive heart failure?]. 219 21

The rationale for the use of vasodilating agents in the treatment of congestive heart failure is to reverse the systemic vasoconstriction that characterises patients with this disorder, and which may further limit cardiac performance. Nitrates were the first vasodilators used, followed by arterial vasodilators (hydralazine, minoxidil), alpha-adrenergic blockers (prazosin, trimazosin) and, more recently, calcium antagonists, ACE inhibitors, beta-agonists and phosphodiesterase inhibitors. The choice of vasodilator should be based on consideration of overall benefit-risk profiles. Consideration of pharmacological action together with classification of patients into haemodynamic subsets has been used as a basis from which to initiate vasodilator therapy. However, such a classification may not lead to a logical choice of drug and there is no evidence to suggest that patients so selected do better when given long term treatment with peripherally specific drugs than with agents that are not tailored to pretreatment haemodynamic variables. Moreover, changes in central haemodynamics after administration of specific vasodilator drugs may differ from those expected on the basis of their presumed actions on the peripheral vasculature. Dosage requirements are difficult to predict with many vasodilator drugs. Traditionally, such requirements have been established by titrating vasodilating drugs to achieve an arbitrarily defined haemodynamic response. However, there is little correlation between haemodynamic end-points and clinical efficacy in patients with heart failure, and short and long term haemodynamic responses to vasodilator drugs are not necessarily related. Drug-specific haemodynamic and clinical tolerance occurs during the course of treatment with all vasodilator drugs; the extent and frequency with which it develops differs between agents. Tolerance is thought to arise from a reduction in drug receptor affinity and/or density or activation of counter-regulatory forces (mainly neurohormonal) that limit the magnitude of vasodilatation that can be achieved. Development of tolerance to a single agent does not usually preclude efficacy of other agents. ACE inhibitors have been associated with a relatively low incidence of tolerance. This may relate to their natriuretic effect and ability to decrease the degree of neurohormonal activation, actions not shared by other vasodilators. Tolerance is the principal reason for failure of prazosin and nitrates as therapeutic agents in severe chronic heart failure.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The role of vasodilator therapy in the treatment of severe chronic heart failure. 355 90


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