UMLS:C0151744 - FACTA Search

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Query: UMLS:C0151744 (myocardial ischemia)
31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of acids on activity of afferent sympathetic nerve fibers from the left ventricle has been examined. Action potentials were derived from the upper thoracic communicating rami of the left side of anesthetized dogs. Application of a solution of lactic acid to the left ventricular surface caused excitation in both myelinated and unmyelinated fibers. The minimum concentration required for excitation was 7.5-75 mug/ml for the unmyelinated fibers and 375-750 mug/ml for the myelinated fibers. Excitation of the unmyelinated fibers induced by coronary occlusion was suppressed by pretreatment with sodium bicarbonate, 500 mg/kg. However, excitation of the myelinated fibers was influenced little by the agent. Pretreatment with a large dose of Trasylol failed to suppress excitation induced by coronary occlusion. The result suggests that acidosis plays a role in excitation of the unmyelinated fibers induced by myocardial ischemia, but not in excitation of the myelinated fibers.
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PMID:Acid-induced excitation of afferent cardiac sympathetic nerve fibers. 108 16

Precordial electrocardiographic mapping has been proposed as a method for evaluating the extent of myocardial injury in patients with acute myocardial infarction. To assess the relationship between direct measures of myocardial cell damage and findings obtained by precordial mapping, the left anterior descending coronary artery (LAD) was occluded in dogs instrumented for simultaneous recording of epicardial and precordial electrocardiograms. The sum in millivolts of ST-segment elevation recorded from 30 electrodes placed in a Silastic grid sutured to the epicardium (EPIsigmaST) was compared to that recorded from 30 precordial electrodes (PresigmaST). While ischemic injury was: 1) maintained constant with a fixed occlusion; 2) reduced by partial reperfusion; 3) increased by addition of a second occlusion; or 4) increased repeatedly by intermittent infusions of isoproterenol, EPIsigmaST and PresigmaST were always closely correlated in each of the 16 dogs studied: r equal 0.92 plus or minus 0.01 (SEM). In seven control dogs, 30 minutes after coronary occlusion, PresigmaST had fallen to 77.4 plus or minus 6.6% of its value 15 minutes postocclusion. In seven experimental dogs, two branches of the LAD were occluded. Fifteen minutes after double occlusion, one occlusion was released; 30 min after the initial occlusion PresigmaST had fallen significantly more than control, to 43.1 plus or minus 13.1% of its value 15 minutes postocclusion. Simultaneously, epicardial sites in the reperfused area also showed normalization of ST segments and 24 hours later exhibited normal myocardial creatine phosphokinase activity and normal histologic appearance. During the same experiment, the mean precordial R wave voltage of sites with ST-segment elevations exceeding 0.15 mV 15 minutes following occlusion fell significantly (P less than 0.05) more in the control group (from 1.14 plus or minus 0.15 to 0.75 plus or minus 0.06 mV) than in the reperfused group (from 1.06 plus or minus 0.09 to 0.96 plus or minus 0.17 mV) during the ensuing 45 minutes. Thus, more rapid normalization of PresigmaST or preservation of precordial R wave voltage reflected the actual prevention of myocardial necrosis by reperfusion. These findings demonstrate the usefulness of precordial electrocardiographic mapping for evaluation changes in myocardial ischemic injury. Sites at which appearance of epicardial ST segment is not a reliable index of ischemic injury were associated with the development of intraventricular conduction blocks with Q to intrinsic deflection intervals exceeding 40 mesc or QRS durations exceeding 65 msec; these changes were associated with precordial RSR' configurations. Such sites, whether recorded from precordial or epicardial leads, should be excluded from ST-segment measurements used in the assessment of myocardial ischemia.
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PMID:Evaluation of precordial electrocardiographic mapping as a means of assessing changes in myocardial ischemic injury. 113 19

A possible role of the autonomic nervous system in the left ventricular response to acute regional myocardial ischemia was sought in conscious dogs instrumented for measurement of left ventricular pressure, internal diameter, and aortic flow. Ischemia produced by occluding the left circumflex coronary artery caused tachycardia and reduced contractility. Changes during control occlusions were compared with those during occlusion.s after beta-adrenergic blockade, parasympathetic blockade, and combined sympathetic and parasymphatetic blockade. Beta-blockade did reduce the tachycardia and slightly reduced left ventricular diameter changes in response to coronary occlusion. Results obtained in animals following surgical cardiac sympathectomy indicated reduced tachycardia and no effects on other parameters. The principal effect of parasympathetic blockade was to augment the increase in end diastolic diameter during occlusion Right atrial pacing indicated this change was due to higher initial heart rates. Combined parasympathetic and sympathetic blockade did not alter inotropic responses to coronary occlusion. Results indicated that inotropic support due to changes in activity in autonomic nerves is not increased during acute occlusion of the left circumflex coronary artery.
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PMID:Specificity of autonomic influences on cardiac responses during myocardial ischemia. 115 May 62

The time relationship for recovery of mechanical function, the intramyocardial electrogram and coronary flow after brief periods of regional myocardial ischemia, was studied in conscious dogs. Total left vemtricular (LV) function was assessed with measurements of LV systolic and diastolic pressures, rate of change of LV pressure (dP/dt), and dP/dt/P. Regional LV function was assessed with measurements of regional segment length and velocity of shortening. An implanted hydraulic occluder on either the left anterior descending or circumflex coronary artery was inflated for 5- and 15-min periods on separate days. A 5-min occlusion depressed overall LV function transiently, but just before release of occlusion overall function had nearly returned to control. At this time regional function in the ischemic zone was still depressed to the point of absent shorteining or paradoxical motion during systole and was associated with marked ST segment elevation (+ 10 +/- 2.2 mV) at the site where function was measured. With release of occlusion and reperfusion the intramyocardial electrogram returned to normal within 1 min, and reactive hyperemia subsided by 5-10 min. In contrast to the rapid return to preocclusion levels for coronary flow and the electrogram, regional mechanical function remained depressed for over 3 h. A 15-min coronary occlusion resulted in an even more prolonged (greater than 6 h) derangement of function in the ischemic zone. Thus, brief periods of coronary occlusion result in prolonged impairement of regional myocardial function which could not have been predicted from the rapid return of the electrogram and coronary flow. These observations indicate that brief interruptions of coronary flow result either in a prolonged period of local ischemia or that alterations of mechanical induced by ischemia far outlast the repayment of the oxygen debt.
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PMID:Regional myocardial functional and electrophysiological alterations after brief coronary artery occlusion in conscious dogs. 115 98

The adrenergic neurohumors, when present locally in the myocardium in high concentrations, can produce a variety of cardiac arrhythmias which may develop into ventricular fibrillation (VF). Of particular importance are the arrhythmias observed immediately after experimentally induced acute myocardial infarction (AMI). Fatal VF, often seen to occur after acute coronary occlusion in the canine heart, may be related to the release of endogenous catecholamines, and a similar phenomenon might be responsible for sudden coronary death (SCD) in man. If adrenergic amines play a vital role in the development of arrhythmias and VF in response to acute myocardial ischemia, then it is conceivable that pharmacological means may be undertaken in an attempt to prevent the release of the adrenergic neurotransmitter or to prevent its arrhythmogenic actions by specific blockade of cardiac beta-adrenergic receptors. Drugs that have a central site of action and are capable of producing a decrease in sympathetic outflow might also play a valuable role in the prevention of arrhythmias and SCD. While the activity of the autonomic nervous system can modify the type and severity of arrhythmias resulting from AMI, existing pharmacological agents have little to offer in preventing the potential adverse effects of adrenergic stimulation without compromising the level of consciousness or cardiovascular function through the removal of adrenergic support to the heart. It would seem more beneficial to direct drug therapy at the electrophysiological defect in the myocardium in an effort to prevent arrhythmias and fatal VF. While currently available antiarrhythmic agents fail to achieve the desired effect, the recent evidence dealing with the quaternary ammonium derivatives of propranolol, lidocaine, and bretylium provides some hope for the future development of drugs with antiarrhythmic as well as antifibrillatory properties which may provide a therapeutic approach to the prevention of SCD.
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PMID:Pharmacological modification of arrhythmias after experimentally induced acute myocardial infarction. Drugs acting on the nervous system. 118 77

N-Dimethylisopropyl propranolol (DMP) is a quaternary derivative which lacks significant beta-adrenergic blocking and local anesthetic effects. It has been reported, nonetheless, to be effective in treating experimental arrhythmias and in limiting the extent of ST-segment elevations following experimental coronary occlusion. The present study examined the effects of DMP on the hemodynamics and myocardial oxygen demands of anesthetized dogs. After a single dose of 3 mg/kg, heart rate fell from 146 +/- 8 to 124 +/- 6 beats/min (P less than 0.0025), and aortic systolic pressure fell from 151 +/- 11 to 141 +/- 9 mm Hg (0.05 less than P less than 0.10), resulting in a 16.8% reduction in the tension-time index. Stroke volume was reduced by 10% despite a 54% increase in left ventricular end-diastolic pressure, suggesting a negative inotropic effect. This was supported by a decrease in maximum extrapolated contractile element velocity from 9.10 +/- 1.05 to 6.61 +/- 65 units/sec (P less than 0.0025). Myocardial oxygen consumption was reduced from 12.0 +/- 1.4 to 9.9 +/- 1.5 ml/min/100 g tissue (P less than 0.05). Myocardial oxygen extraction was unchanged, indicating that the decrease in oxygen consumption resulted from a reduction in myocardial oxygen demand. When heart rate and systolic pressure were artificially restored to control levels, after the administration of DMP, myocardial oxygen consumption remained significantly below the control level. DMP, therefore, appeared to reduce myocardial oxygen demands primarily by its negative inotropic effect. This drug may have application in the treatment of ischemic heart disease.
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PMID:N-dimethylisopropyl propranolol. Effects on myocardial oxygen demands. 124 83

Disorders of contractile function constitute one of the earliest events to follow acute coronary occlusion, and occur in the central ischemic region within approximately 10 seconds. Measurements of regional myocardial dimensions and function in the central, border, and normal zones around an area of ischemia allow assessment of such changes, and when these disorders are persistent after permanent coronary occlusion they may offer an indirect means for assessing the severity and extent of myocardial ischemia and infarction. Recent experimental studies that used pairs of miniature ultrasonic crystals implanted within the subendocardium of open-chested and chronically instrumented, unanesthetized dogs indicate that functional function may be studied simultaneously in these regions; a holosystolic bulge rapidly develops in the central zone of ischemia while hypokinesis is apparent in marginal zones bordering the central region. It has been shown that function in the marginal zone reflects the balance between oxygen supply and demand and may be favorably or unfavorably influenced by acute therapeutic interventions. This finding suggests that the extent of an ischemic region may be altered by such therapy.Our studies further indicate that regional changes in dynamic wall thickness closely parallel the characteristics of shortening of nearby subendocardial segments, indicating that measurement of wall thickness alone may be useful for characterizing regional function. Studies in chronically instrumented animals also have established that the miniature crystals are useful for measuring regional dimensions and function over prolonged periods of time; for example, reduction in end-diastolic dimensions that reflex tissue loss over a 3- to 4-week period after coronary occlusion is substantially greater in the central ischemic regions than in the marginal zones. It is proposed that persistent changes in myocardial function and progressive alterations changes in dimensions over time offer indirect measures of the extent and severity of ischemic damage and infarction. With the development of improved echocardiographic or other clinically applible methods, such measurements may be a useful tool for assessing the effects of therapy on myocardial infarct size.
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PMID:Analysis of regional myocardial function, dimensions, and wall thickness in the characterization of myocardial ischemia and infarction. 125 75

A method is described for measuring intracoronary S-T segment elevations in the closed chest, a technique that appears to provide more reliable measurements of myocardial ischemia. Electrodes were inserted through intracoronary balloon catheters that were placed within a coronary artery and its adjoining vein both proximal and at several points distal to a coronary occlusion. Intracoronary arterial and adjacent venous electrocardiograms produced equivalent tracings. The intracoronary S-T segment elevations after coronary occlusion resembled those recorded from the epicardial surface but were free of artifacts noted in open chest studies. Study of progressive alterations of the intracoronary S-T segment after proximal occlusion of the left anterior descending coronary artery in 18 closed chest dogs revealed a peak segment elevation of 3.2 +/- 0.6 mv within 5 minutes, followed within 2 to 3 hours by spontaneous reduction by more than 40% of the S-T elevation over the occluded zone. In 44% of these animals, the S-T elevation decreased spontaneously to less than 1 mv, and in 22% it decreased to the preocclusion control level within 2 hours of occlusion. This spontaneous decrease in S-T elevation was frequently followed by a secondary increase and then S-T segment fluctuations. Reperfusion of the left anterior descending coronary artery after 30 to 60 minutes of occlusion generally led to a prompt reduction in S-T elevation. In some cases S-T elevations persisted up to 14 hours of occlusion, were reduced after reperfusion and exhibited a renewed pronounced increase after subsequent reocclusion of the left anterior descending coronary artery. During the 1st hour after occlusion, the early S-T segment elevation followed by spontaneous reduction reduction generally corresponded temporally with the derangements in myocardial lactate extraction and potassium loss. However, after 1 hour of occlusion no clear-cut correlation could be established between S-T fluctuations and changes in hemodynamic or myocardial metabolic measurements. We conclude that the new closed chest intracoronary electrocardiographic S-T technique might be of use for monitoring the early ischemic myocardial derangements and to assess benefits or drawbacks of treatment in both the experimental animal and man. Correspondence of S-T segment elevation with lactate and potassium alterations in the coronary-occluded region in the 1st hour after occlusion indicates that S-T segment elevation might represent an index of early myocardial ischemia. The spontaneous S-T changes that follow coronary occlusion must be taken into consideration when investigators utilize S-T segment modification as a sign of effectiveness of treatment.
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PMID:Significance of S-T segment elevations in acute myocardial ischemia. Evaluation with intracoronary electrode technique. 125 86

The effects of methylprednisolong treatment on acute myocardial ischemia were studied in nine closed chest dogs. After 1 hour of proximal occlusion of the left anterior descending coronary artery, an intravenous bolus injection (50 mg/kg body weight) of methylprednisolone was administered and its effects studied during an additional 2 hours of occlusion. After 2 hours of treatment the following significant mean alterations from levels after 1 hour of occlusion were noted: an increase of 16.7% in heart rate and decreases of 23% in left ventricular end-diastolic pressure, 32% in stroke volume, 14% in cardiac output and 37% in stroke work. Peak systolic pressure, maximal rate of rise of left ventricular pressure (dP/dt), left ventricular end-diastolic volume, systemic vascular resistance and coronary sinus blood flow changed less than 10%. Ejection fraction and regional cardiac wall motion were not improved. Metabolic dysfunction of the coronary-occluded myocardium, revealed by regional lactate as well as potassium derangements, persisted throughout the 2 hour treatment period. Comparison of these results with equivalent data from an untreated series of nine dogs with 3 hours of occlusion demonstrated no improvement in the treated series. Methylprednistone failed to restore regional cardiac metabolic and mechanical function, and treatment was associated with a further rise in S-T segment elevations. Administration of methylprednisolone after 1 hour of proximal left anterior descending coronary occlusion apparently does not reverse cardiac dysfunction in the first 2 hours of treatment.
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PMID:Methylprednisolone treatment in acute myocardial infarction. Effect on regional and global myocardial function. 125 94

Since the seventies, and in particular the eighties of this century, findings on pathogenetic mechanisms of ischaemic heart disease are expanding markedly and are becoming more accurate. This makes it possible to know and understand better factors which influence the genesis and development of myocardial ischaemia including the most serious clinical forms (unstable angina pectoris, acute myocardial infarction and sudden cardiac death). Diminution of the cardiac flow and/or increased oxygen demands of the heart muscle are not the only determinants of myocardial ischaemia which is influenced markedly also by neurohumoral, metabolic, prothrombotic (proaggregation and procoagulation) factors as well as antithrombotic and haemodynamic factors. Acute coronary syndromes have as a rule, in particular in patients with out severe atherosclerotic stenosis of the coronary arteries, a common pathophysiological mechanism of fissuration of the atherosclerotic plaque followed by different grades of dynamic coronary occlusion depending on vasoconstriction--spasm of the coronary arteries and thrombus formation. The coronary arteries, usually affected with atherosclerosis, may be due to the comprehensive action of various factors temporarily, intermittently or permanently occluded. In case of the development of acute coronary syndromes thrombosis plays a key role. Better knowledge of pathogenetic mechanism of IHD markedly changes views on treatment and management of patients with IHD in particular patients with acute coronary syndromes. The authors emphasize strategies focused (also preventively) on preventing progression of the disease with the aim to improve survival and the short-term and long-term prognosis.
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PMID:[Pathogenesis of myocardial ischemia and acute coronary syndromes]. 129 43

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