UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We review the hemodynamic effects and clinical usefulness of five natural and synthetic catecholamines. Their actions are best understood by an appreciation of the relative ability of each catecholamine to activate alpha, beta 1 and beta 2 adrenergic receptors in the myocardium and peripheral vasculature. Epinephrine, the first catecholamine isolated, is shown to have little useful role in the therapy of acute myocardial infarction. L-norepinephrine has powerful alpha and moderate beta 1 effects. It is the catecholamine of choice in the initial treatment of cardiogenic shock associated with acute myocardial infarction. Isproterenol markedly increases myocardial contractility and heart rate by beta 1 stimulation, while simultaneously decreasing peripheral vascular resistance and, therefore, arterial pressure through its action on beta 2 receptors. It increases cardiac output, but its metabolic costs are high in the presence of ischemia. Its role in the therapy of acute myocardial infarction has largely been supplanted by more selective agents. Dopamine causes slightly less vasoconstriction than l-norepinephrine and slightly less myocardial stimulation than isoproterenol. In low doses, it increases renal and mesenteric blood flow by activation of a non-adrenergic receptor. Tachycardia and associated metabolic deterioration render it a second-line drug in the treatment of severe cardiogenic shock. Dobutamine, a new synthetic catecholamine, has primarily beta 1 activity. It increases myocardial contractility with little effect on heart rate or peripheral vascular resistance. It is ineffective in cardiogenic shock, but may eventually be shown to have a role in the treatment of left ventricular failure uncomplicated by severe hypotension.
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PMID:Use of catecholamines in acute myocardial infarction. 39 85

Fibroblast growth factors (FGF) and type beta-1 transforming growth factor (TGF beta 1) are pleiotropic regulatory peptides which are expressed in myocardium in a precise developmental and spatial program and are up-regulated, in the adult heart, by ischemia or a hemodynamic burden. The accumulation of trophic factors after aortic banding supports the hypothesis that autocrine or paracrine pathways might function to mediate, in part, the consequences of mechanical load. Our laboratory has demonstrated that cardiac muscle cells are targets for the action of peptide growth factors and, more specifically, that modulation of the cardiac phenotype by basic FGF (bFGF) and TGF beta 1 strongly resembles the induction of fetal cardiac genes--including skeletal alpha-actin (SkA), beta-myosin heavy chain, and atrial natriuretic factor--which are characteristic of pressure-overload hypertrophy. Unexpectedly, and despite effects like those of bFGF on five other cardiac genes, acidic FGF (aFGF) was found to repress, rather than stimulate, SkA transcription in neonatal cardiac muscle cells. The proximal 200 nucleotides of a heterologous SkA promoter were sufficient for basal tissue-specific transcription, for induction by bFGF, and for inhibition by aFGF. Thus, both positive and negative regulation by peptide growth factors can be localized to the proximal SkA promoter. Full promoter activity required each of three CC[A/T]6GG motifs similar to the serum response element (SRE) for activation of the c-fos proto-oncogene, as previously shown for SkA transcription in a skeletal muscle background. The most proximal SRE, SRE1, was sufficient in the absence of other SkA promoter sequences for efficient tissue-specific expression in cardiac myocytes (versus cardiac fibroblasts), and was stimulated by bFGF to the same extent as the full-length promoter and endogenous gene. Despite its ability to repress the SkA promoter, aFGF had no significant effect on SRE1. Both FGFs up-regulated the canonical fos SRE, to a comparable degree. Thus, SRE1 can discriminate between signals generated in cardiac myocytes by bFGF and aFGF. In cardiac myocyte extracts, two predominant proteins contact SRE1: serum response factor (SRF) and a second protein, F-ACT-1. Thus, serum response factor and F-ACT-1 are candidate trans-acting factors for basal transcription of the SkA gene in cardiac muscle cells and for induction of SkA by bFGF and, potentially, other trophic signals.
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PMID:Growth factors, growth factor response elements, and the cardiac phenotype. 128 69

Arterial hypertension is the most frequent cause of a disturbance of coronary microcirculation. Inspite of having normal epicardial coronary arteries, patients with arterial hypertension often have symptoms of angina pectoris and a positive exercise tolerance test. The angina pectoris symptoms in patients with arterial hypertension are due to functional and structural alterations of the coronary microcirculation. Consequently, an antihypertensive therapy should not only aim at lowering blood pressure and reversing myocardial hypertrophy, but also to improve coronary microcirculation in order to avoid the consequences of chronic ischemia on the myocardium. Until now, only experimental studies have indicated that antihypertensive therapy can improve coronary flow reserve. To determine (also under clinical conditions) if coronary flow reserve can be improved, in 30 hypertensive patients maximal coronary blood flow, minimal coronary resistance, and coronary reserve (dipyridamol) were studied before and after a long-term antihypertensive treatment (9-12 months) with an ACE-inhibitor (enalapril 10-20 mg/d), a calcium channel blocker (diltiazem 120-180 mg/d) and a beta 1-selective beta-receptor-blocker (bisoprolol 5-10 mg/d). To assess the chronic effects rather than the acute effects of the antihypertensive pharmacon, coronary microcirculation was studied after intermission of medical therapy for a period of 1 week. Along with a comparable decrease in LV muscle mass, coronary reserve was improved after enalapril by 48%, after diltiazem by 48%, and after bisoprolol by 22%. It is possible that the observed increase in coronary reserve is related to the reversal of structural vascular abnormalities on the level of the coronary microcirculation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Prevention with vasoactive drugs]. 129 Feb 99

As soon as there is evidence of left ventricular dysfunction, even before clinical signs of chronic cardiac failure (CCF) have developed, intrinsic and extrinsic compensatory mechanisms are brought into play by the body. The majority of these mechanisms are under the influence of neurohumoral systems. When neurohormonal responses persist, as in CCF, they take on a beneficial nature since they participate in adaptation of the cardiovascular system as a whole, but they are also harmful since they worsen the working conditions of the myocardium by their cardiac and peripheral effects. Hyperactivity of the noradrenergic sympathetic nervous system is seen in CCF with levels 2 to 3 times higher as compared with subjects with normal left ventricular function. The circadian rhythm of catecholamines is modified. The increase in circulatory catecholamines is all the greater when cardiac failure is advanced. This release of noradrenaline (NA) is under the control of arterial baroreceptors which normally send to the central nervous system inhibitory inflow from the sympathetic nervous system. Inhibitory tone is released in case of a fall in blood pressure. Noradrenaline acts on beta-predominant myocardial receptors (inotropic and tachycardic) and alpha-predominant vascular receptors, resulting in arteriolar vasoconstriction. There is rapid onset of down regulation of myocardial beta-receptors. This fall essentially concerns beta 1, but beta 2 also, since they may be affected according to the etiology of CCF (ischemia). The Renin Angiotensin System (RAS) is also activated by the fall in systemic blood pressure. This consists of a cascade of reactions leading to the synthesis of angiotensin II responsible for powerful vasoconstriction of all arterial areas, including the coronary vessels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Metabolic changes in cardiac failure]. 130 Sep 20

Transforming growth factor beta 1 (TGF beta 1) mRNA expression was examined after hypoxia-ischemia in rat brains using in situ hybridization. Twenty-one-day-old Wistar rats had unilateral ligation of the right carotid artery followed by either 15 or 90 min inhalational hypoxia. Fifteen min of hypoxia resulted in moderate damage with selective neuronal loss in cortical layer 3 and in the hippocampus of the ligated hemisphere. Seventy-two hours after hypoxia TGF beta 1 expression was markedly increased above control levels in those sites. Levels were normal after 120 h. Ninety min of hypoxia led to an infarction of the lateral cerebral cortex and hippocampus of the ligated hemisphere. One hour after hypoxia TGF beta 1 mRNA was expressed in the hippocampus of the damaged side. Seventy-two and 120 h after hypoxia, expressing cells were found throughout the cerebral cortex, piriform cortex, striatum, thalamus and hippocampus of the infarcted side. These data show that TGF beta 1 mRNA expression is induced after a hypoxic-ischemic insult in the brain. TGF beta 1 may be involved in post-asphyxial repair mechanisms.
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PMID:Hypoxia-ischemia induces transforming growth factor beta 1 mRNA in the infant rat brain. 131 21

The molecular basis of myocardial adaptation to ischemia and reperfusion is poorly understood. It is thought that nuclear proto-oncogenes act as third messengers, converting cytoplasmic signal transduction into long-term changes of gene expression. We studied the expression of six nuclear proto-oncogenes (Egr-1, c-fos, fosB, c-jun, junB, and c-myc) in myocardium subjected to ischemia and reperfusion in anesthetized pigs. Stunning was achieved by two 10-minute left anterior descending coronary artery occlusions separated by 30 minutes of reperfusion. Hearts were excised after the first occlusion, after the first reperfusion, and at 30, 120, 150, and 210 minutes of reperfusion after the second occlusion. Total RNA was prepared from stunned as well as normally perfused myocardial tissue and subjected to Northern blotting. The response of the six nuclear proto-oncogenes varied.fosB gene expression was never detected. The c-myc gene was expressed, but its level was unchanged by ischemia. c-jun expression was slightly increased by ischemia (3.1 +/- 0.6-fold). The c-fos, Egr-1, and junB genes were highly induced, being fivefold to sevenfold higher in experimental than in control tissue. In three animals pretreated with the beta 1-antagonist metoprolol and then subjected to the above experimental protocol, the induction of proto-oncogenes was similar to that in nonblocked controls. Our results show that the myocardial adaptive response to ischemic stress includes the induction of at least four transcription factors that may be further operative in repair processes and angiogenesis.
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PMID:Proto-oncogene expression in porcine myocardium subjected to ischemia and reperfusion. 138 5

A high adrenergic strain during reperfusion after ischemia impedes functional recovery. Conversely, adrenergic blockade may be beneficial during reperfusion. This study was undertaken to find out if early postoperative high-dose infusion of the selective beta 1-blocking agent metoprolol tartrate has additional effects on metabolic variables related to myocardial energy supply/demand balance compared with those obtained with a late preoperative oral dose. The study included 21 male patients undergoing coronary bypass grafting. All patients received an oral dose of metoprolol before the operation. After the operation, patients were randomized to a control group or a group receiving intravenous infusion of metoprolol. Myocardial uptake of oxygen and substrates was determined before and during atrial pacing. Metoprolol reduced arterial concentrations of free fatty acids, reduced myocardial uptake of free fatty acids, and enhanced myocardial uptake of lactate. During paced tachycardia, the metoprolol concentration correlated negatively with myocardial uptake of free fatty acids (r = -0.80; p < 0.001) and positively with myocardial uptake of lactate (r = 0.53; p < 0.05). It is concluded that postoperative infusion of metoprolol induces myocardial metabolic changes compatible with an improved energy supply/demand balance.
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PMID:Influence of beta 1-blockade on myocardial substrates early after a coronary operation. 144 2

A high adrenergic strain during reperfusion after ischemia impedes functional recovery. Conversely, adrenergic blockade may be beneficial during reperfusion. Negative inotropic effects may outweigh the expected benefit, however. Against this background hemodynamic and metabolic effects of early postoperative infusion with the beta 1-selective agent metoprolol were studied in 22 patients after coronary operations. During basal postoperative conditions, intravenous metoprolol reduced cardiac index and stroke volume index compared with control patients, while other variables were unaffected. During the higher adrenergic level of a dopamine infusion (7 micrograms/kg per minute), the heart rate, rate pressure product, and myocardial oxygen uptake were attenuated in proportion to the plasma level of metoprolol. Intravenous beta 1-blockade did not affect the cardiac output or stroke volume responses to dopamine (the cardiac output was still, however, 19% lower than in control patients). A release of myocardial creatinine kinase isoenzyme myocardial band was observed during dopamine infusion, suggesting that myocardial ischemia was induced. The release was not influenced by metoprolol, but it correlated with heart rate (r = 0.60; p < 0.01). It is concluded that infusion of metoprolol early after coronary operations depresses myocardial contractility with some 19%, which was without clinical significance in straightforward patients; the increased myocardial metabolic demand during a period of increased adrenergic stress was attenuated by metoprolol. This may be of importance for myocardial recovery.
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PMID:High-dose intravenous beta 1-blockade in patients early after cardiac operations. Negative inotropism versus myocardial oxygen economy. 145 32

Celiprolol is a new antihypertensive agent that represents a new generation of beta-blockers. It combines cardioselective beta-adrenergic antagonism (beta 1) with a mild vasodilation via vasoselective beta-adrenergic agonism (beta 2). Results of animal studies show that celiprolol has beta 1-antagonist potency similar to that of propranolol and atenolol, and cardioselectivity slightly greater than that of atenolol. Celiprolol does not produce bronchoconstriction but has mild propranolol-resistant bronchodilatory properties in cats. The compound also relaxes vascular smooth muscle in a propranolol-sensitive fashion, suggesting a mechanism of beta 2-agonism. The beta 2-agonism results in a selective downregulation in beta 2-receptor number and response in tissue culture, as well as in peripheral tissue from celiprolol-treated volunteers. The decreases in beta 2-receptors are blocked by concomitant treatment with propranolol. Celiprolol is devoid of cardiac depressant activity and in fact has mild cardiostimulatory actions. The cardiostimulation is not via beta 1-stimulation, since it is not abolished by beta-blocking doses of propranolol. In a model of severe myocardial ischemia, celiprolol attenuates the ischemia-induced myocardial acidosis and improves the regional segment function. These results are suggestive of myocardial protection. In summary, celiprolol distinguishes itself from other beta-blockers by virtue of its cardioselectivity, vasorelaxation via beta 2-agonism, and the lack of bronchoconstriction and cardiodepression. These properties observed in animal studies have also been documented in clinical trials.
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PMID:Preclinical pharmacology of celiprolol: a cardioselective beta-adrenergic antagonist and mild vasodilator. 167 Nov 87

beta-Blockers are known to suppress exercise-induced ischemia but give rise to such problems as fatigue or dyspnea on effort and also bradycardia. In a series of double-blind, placebo-controlled studies of celiprolol (a cardioselective beta 1-blocker with beta 2-agonist and vasodilatory properties) in patients with hypertension and angina and in normal volunteers, it was found that celiprolol did not produce bradycardia when given in combination with verapamil. Celiprolol did reduce exercise-induced ischemia, but there was no reduction in cardiac output at rest or on exercise compared with placebo. Compared with atenolol, celiprolol produced less dyspnea and fatigue at submaximal levels of exercise. It is concluded that celiprolol possesses certain differences, compared with conventional beta-blockers, that may be of direct clinical benefit.
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PMID:Angina, ischemia, and effort tolerance with vasodilating beta-blockers. 167 26

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