Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0151744 (myocardial ischemia)
 31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In one third of patients who suffered an infarction NIDDM and arterial hypertension are present. In the absolute majority of patients with IHD, as apparent from the IRI and C-peptide response after a glucose load, hyperinsulinism is present. The blood sugar response can have the character of diabetes or of impaired glucose tolerance, the curve may be very flat or normal while the IRI and C-peptide response are excessive. Hyperinsulinism has a hypersecretory origin as suggested by the concurrently elevated C-peptide level but also reduced insulin utilization in the liver and peripheral target organs. Hyperinsulinism is thus a regular associated phenomenon of IHD and is a special risk factor independent on hyperglycaemia and associates with the other main risk factors of IHD such as arterial hypertension, HPLP (android obesity), hyperglycaemia (NIDDM) and hirsutism as a manifestation of a hyperandrogenic state in the female organism with the syndrome of polycystic ovaries. Hyperinsulinism plays an indirect role in the pathogenesis of coronary syndrome via the main risk factors (5H syndrome--hyperinsulinism, hypertension, HPLP, hyperglycaemia, hirsutism) and also directly by its action on endothelial paracrine mechanism of the coronary circulation where in the early stage vasoconstrictor factors predominate (endothelin-1, PGF2-alpha) over physiological vasodilatating factors (EDRF-NO, PGE2, PGI2) and this leads then to functional spasms. It seems that also the coronary X syndrome develops very frequently on the background of the hormonal metabolic X syndrome or the 5H syndrome.
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PMID:[Hyperinsulinism and the coronary syndrome]. 149 68

The organic nitrates have remarkably diverse actions that are or should be beneficial in patients with ischemic heart disease. These drugs are effective in all the important ischemic syndromes. Preliminary data in patients with acute infarction suggest that the drugs may be truly cardioprotective, resulting in improved mortality. This review has not discussed the role of nitrates in congestive heart failure or LV dysfunction, a subject of great importance. The nitrates are useful adjunctive agents in these syndromes, and the two VeHfT trials support the concept that long-term nitrate administration, in conjunction with hydralazine, may favorably alter the natural history of heart failure. This cardioprotective effect is similar to that suggested for the post-MI patient. The data are not strong enough for definitive conclusions at this time. The clinical benefits of nitrates in decreasing subjective (angina) and objective indices of ischemia in stable and unstable angina, as well as limited data in asymptomatic myocardial ischemia, are unequivocal and are as favorable as those for beta blockers or calcium antagonists. Tolerance is an important problem that unfavorably influences the potential benefits of nitrate therapy. I believe that this problem can be avoided with well-designed dosing regimens. Current research into endothelial biology in health and disease has further supported a physiologic role for the organic nitrates in patients with ischemic heart disease. The nitrate-platelet story, while controversial, is promising and offers another positive rationale for nitrate administration. The concept of nitrates replenishing disordered EDRF release or action is an exciting one. Physicians should feel fortunate to have such a remarkable group of drugs available for their patients.
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PMID:Use of nitrates in ischemic heart disease. 151 14

Studies have demonstrated that cocaine causes coronary vasoconstriction, but this has been unassociated with myocardial ischemia. Therefore, cocaine seems unlikely to precipitate myocardial infarction in the absence of potentiating factors. We hypothesized that injury to coronary endothelium could potentiate cocaine-induced coronary vasoconstriction by decreasing EDRF. The effect of cocaine on LAD diameter was measured in dogs subjected to coronary endothelial denudation and compared with that in a non-denuded control group. Endothelial denudation was accomplished by abrasion with an inflated angioplasty balloon and confirmed in vivo by demonstrating a vasoconstrictive response to infused acetylcholine and by postmortem scanning electron microscopy. Cocaine produced a similar maximal reduction in LAD diameter in both groups. Thus, cocaine induces endothelium-independent coronary artery vasoconstriction. Failure of endothelial injury to potentiate the coronary vasoconstrictive effect by cocaine suggests that factors other than endothelial dysfunction may be important in pathogenesis of cocaine-associated myocardial infarction.
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PMID:Cocaine produces coronary artery vasoconstriction independent of an intact endothelium. 164 52

ACE inhibition may be useful in several manifestations of ischaemic heart disease, such as heart failure due to ischaemic cardiomyopathy. Recent evidence suggests that these effects may also be present in normotensive patients with ischaemic heart disease without heart failure. Theoretically, converting-enzyme inhibition, through coronary and systemic vasodilating effects and negative inotropic properties, should have a favourable effect on the myocardial oxygen supply/demand ratio and, hence, affect the incidence and severity of myocardial ischaemia. It is doubtful, however, whether these cardiac and extracardiac properties of ACE inhibitors really underlie its potential antiischaemic effects, at least in the average patient with ischaemic heart disease without concomitant heart failure and hypertension. Recent animal and human studies indicate that converting-enzyme inhibitors may modulate myocardial ischaemia by reducing ischaemia-induced circulating neurohumoral activation. It has been shown that, depending on the severity of ischaemia, the circulating renin-angiotensin system may become activated together with an increase in circulating catecholamine levels. ACE inhibition suppresses this neuroendocrine stimulation during ischaemia and modulates subsequent systemic and, presumably, also coronary vasoconstriction. In addition to these effects on circulating neurohormones, ACE inhibition could affect myocardial ischaemia through a number of local actions, e.g. modulation of tissue (cardiac) angiotensin II formation and bradykinin breakdown, stimulation of prostaglandin synthesis and, in the use of sulphydryl compounds, by affecting EDRF formation. Whether ACE inhibitors have clear antiischaemic effects in all clinical conditions is uncertain. Their efficacy to limit exercise-induced ischaemia has been questioned. In contrast, pacing-induced ischaemia in patients at rest is clearly prevented by ACE inhibition. This differential effect may be related to a more pronounced difference in circulating neurohormones during exercise per se. It also suggests that ACE inhibitors may be particularly useful as (additional) antiischaemic therapy in patients with angina at rest, e.g. unstable angina and the acute phase of myocardial infarction.
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PMID:Neurohumoral activation during acute myocardial ischaemia. Effects of ACE inhibition. 197 98

Myocardial ischemia is associated with endothelial injury and an apparently insufficient generation of endothelium-derived vasodilating and platelet and white cell inhibitory mediators, such as prostacyclin (PGI2) and EDRF. This paper reviews some recent findings of our laboratory on cardioprotective effects of defibrotide, a PGI2 stimulating agent, in experimental myocardial ischemia and its possible sites of action in several in vitro assay systems. Defibrotide (32 mg/kg x h) reduced the infarct size by 50% in pigs, subjected to 1 h of coronary artery ligation followed by 3 h of reperfusion. This was associated with significant inhibition of neutrophil activation during the reperfusion period and a two-to threefold increase in cardiocoronary PGI2 generation. In vitro studies on PAF- and calcium ionophore-stimulated human granulocytes confirmed a dose-dependent (10-1000 micrograms/ml) antineutrophil effect of defibrotide (inhibition of lysosomal enzyme release) which was independent of the type of stimulus. Defibrotide (0.1 mg/ml) also inhibited superoxide anion generation from PAF stimulated neutrophils in Langendorff-perfused guinea pig hearts and was equipotent to a specific PAF antagonist (BN 52021). Defibrotide (0.1 mg/ml) did not stimulate PGI2 release from cultured porcine aortic endothelial cells but enhanced PGI2 release four- to fivefold above control if endothelial cells were coincubated with platelets. These data demonstrate a considerable cardioprotective potential of defibrotide which appears to involve endothelial protection from granulocyte-derived noxious compounds and a long-lasting stimulation of PGI2 production.
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PMID:Endothelial protection by defibrotide--a new strategy for treatment of myocardial infarction? 255 54

Within the last decade it became obvious that the treatment of angina pectoris alone is not sufficient. Modern goals include the optimization of anti-ischemic treatment ("silent myocardial ischemia") without compromising quality of life, as well as the reduction of fatal and non-fatal cardiac events. The failure of nitrates to continuously protect from myocardial ischemia ("nitrate tolerance") requires a modification of the current step-care recommendations for medical treatment. Numerous combinations of nitrates, betablockers and calcium channel blockers compensate for each other regarding their effects on heart rate, contractility, peripheral resistance and coronary blood flow. Recommendations for combination therapy decisively depend on the choice of the first-line drug. Only nitrates reduce myocardial preload by venodilation and substitute for EDRF-deficiency. After headaches disappear, nitrates do not affect quality of life and they are cheap. The nitrate-induced acceleration of heart rate should be compensated by the addition of beta-blockers or heart rate-decreasing calcium channel blockers. Therefore, the combination of nitrates with heart-rate-increasing calcium channel blockers, such as nifedipine, should be avoided. Many studies have proven the superiority of different double and triple therapies, as compared to their single components. A few reports, however, did not confirm this increase of anti-ischemic efficacy with combination therapy. The improvement of prognosis is proven for beta blockers without ISA in subgroups of patients with acute or post myocardial infarction and can be assumed for nitrates as well. With regard to prognosis, calcium channel blockers were inferior to nitrates and beta blockers. The combination of nitrates with a non-ISA betablocker should be preferred in post myocardial infarction patients with ventricular arrhythmias, whereas the combination of nitrates with a heart rate decreasing calcium channel blocker should be preferred in patients with COPD, severe peripheral arterial disease or severe diabetes. The combination of nitrates with a heart-rate-increasing calcium channel blocker should be considered in patients with sinus bradycardia, first degree AV-block, or proven coronary spasm. In patients with congestive heart failure, betablockers and calcium channel blockers should be avoided. To optimize medical treatment of ischemic heart disease, intermittent high dosage ISDN plus a beta blocker without ISA or ISDN plus a calcium channel blocker like verapamil are recommended. Frequently, however, the patient decides by himself, based on unacceptable side effects.
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PMID:[Combination of anti-angina drugs]. 257 81

Diabetes mellitus is thought to increase the susceptibility of tissue to hypoxic injury through D-glucose-induced alterations of intracellular metabolism. Therefore the effects of hyperglycaemia on coronary artery autoregulation under slight reduction of coronary flow were investigated in isolated perfused guinea-pig hearts. Under normal (10 mM) D-glucose concentrations coronary autoregulation was intact in response to a slight reduction of coronary flow (from 6 to 4.5 mL min-1) when L-arginine as a precursor of the endothelium-derived relaxing factor (EDRF/NO) was available and formation of prostaglandines was intact. Under high (44 mM) D-glucose concentrations on the other hand, a sustained vasodilatation dependent on the availability of L-arginine was observed, when formation of prostaglandins was blocked. This effect was partially reduced in the presence of prostaglandin synthesis. Furthermore, the effect of L-arginine under both conditions could be antagonized by the L-arginine-analogue NG-nitro-L-arginine-methyl-ester (100 microM). Our results suggest that hyperglycaemia impairs coronary artery autoregulation by reducing the threshold for hypoxic vasodilatation in an EDRF/NO-dependent manner. Concomitantly a shift from the formation of vasodilatatory to vasoconstrictive prostaglandines was observed. These results might be of particular interest in patients with diabetes mellitus and ischaemic heart disease.
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PMID:Elevation of D-glucose impairs coronary artery autoregulation after slight reduction of coronary flow. 758 15

Recent investigations have suggested that the vascular endothelium is an active participant in the regulation of arterial tone and blood flow. In a state of health, the endothelium contributes to hemodynamic equilibrium; however, it rapidly becomes dysfunctional in hypercholesterolemia and diabetes mellitus or with exposure to the stress of hypertension or long-term smoking. Among the deficits observed during endothelial dysfunction is a reduction in the synthesis and release or an excessive degradation of EDRF. This potent vasorelaxant is derived from the amino acid L-arginine and has been characterized as NO or a closely related substance. EDRF relaxes vascular smooth muscle by activating guanylate cyclase. A deficiency in the activity of EDRF may be the mechanism of diminished coronary vasodilation in patients with ischemic heart disease. Organic nitrates, which are metabolized to NO or S-nitrosothiol at the cellular level, are often used in the management of myocardial ischemia; they also induce vasodilation by activating guanylate cyclase. The similarities between organic nitrates and endogenous EDRF and their interactions are discussed in this review.
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PMID:Endothelium, coronary vasodilation, and organic nitrates. 783 12

Endothelial function of epicardial arteries and coronary resistance vessels, as well as endothelial dysfunction and clinical symptoms of coronary artery disease and their therapeutic implications are reviewed including the presentation of the author's own results. Coronary endothelial vasodilator dysfunction represents a fundamental functional disturbance in vascular biology with the development of atherosclerosis. This functional alteration in coronary vascular reactivity appears to play an important integral part in the clinical presentation of coronary artery disease. Humoral and neuronal factors in favour of vasoconstrictor influences affect the balance between myocardial oxygen supply and demand, thus, facilitating the manifestation of myocardial ischemia. In order to identify more selective therapies the potential mechanisms underlying an impaired release or activity of EDRF/NO must be considered. Dysfunction of the endothelial L-arginine/NO pathway may involve decreased activity of NO synthase, increased inactivation of NO formed from its precursor L-arginine, impaired signal transduction mechanisms and reduced intracellular availability of L-arginine. Currently, initial therapeutic strategies include the supplementation of L-arginine, the use of antioxidants, as well as ACE-inhibitors. ACE-inhibitors have been shown not only to reduce vascular tone (and hypertrophy) by inhibition of angiotensin II formation, but also by increasing the endothelial production of NO and prostacyclin most likely due to the local accumulation of endothelium-derived bradykinin. Thus, ACE-inhibition appears to provide the potential to improve endothelial NO synthesis. Indeed, study results demonstrate that chronic ACE-inhibition is associated with an increased coronary blood flow response to acetylcholine suggesting an improvement in endothelial vasodilator functioning of coronary resistance vessels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Coronary endothelial vasodilator dysfunction: clinical relevance and therapeutic implications. 785 84

The role of mental stress in ischemic heart disease is two-fold: as a risk factor of coronary artery disease and as a trigger of acute ischemic attacks in patients with established coronary atherosclerosis. The role of stress as a risk factor is still controversial. Data regarding the relationship between occupational factors and development of coronary atherosclerosis have not been confirmed. A type personality, above all when anger and hostility traits are present, seems to be a predisposing factor for the development of coronary artery disease. These data however, were not confirmed in study groups including patients with a higher prevalence of other, more important, risk factors. Stress can have an important role as a trigger of acute ischemic attacks. This is indirectly shown by the circadian distribution of the main manifestations of ischemic heart disease (sudden death, myocardial infarct, ST segment depression). In fact, their incidence is significantly higher in the morning hours, after awakening, when mental stress is higher. In the laboratory setting, mental stress can induce myocardial ischemia in a variable percentage of patients (0 to 80%). Prevalence of mental stress-induced myocardial ischemia varies depending on the stressor used, the patients group and, above all, the diagnostic tool. Ischemic episodes induced by mental stress, in fact, are generally silent and less severe and extensive than those elicited by exercise stress testing. It is therefore often necessary to use methods, such as myocardial scintigraphy, with higher sensitivity for the detection of myocardial ischemia in comparison with ECG. Patients with mental stress-induced myocardial ischemia tend to present higher scores on measures of aggressivity, anger and hostility. These psychological features are related to a hightened cardiovascular reactivity with a brisk and greater increase in heart rate and blood pressure after exposure to stress. It would be therefore useful to identify patients with such a behaviour by psychological assessment and/or analysis of sympatho-vagal balance by analysis of heart rate variability. The mechanism by which mental stress can induce myocardial ischemia is represented by an increase in myocardial oxygen demand, through the increased heart rate and blood pressure, probably associated with an increase in coronary vascular resistance. This last phenomenon is likely caused by small coronary vessel constriction mediated by alpha-adrenergic activation and by a reduced EDRF release by the damaged endothelium.
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PMID:[Stress and ischemic heart disease]. 802 44


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