Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 the 24 year old former competitive athelete tocolysis with ritodrin (pre-par) was started at 28 weeks gestation in her second pregnancy for premature labor. Diffuse cardiac ischemia occurred during the intravenous infusion of ritodrin. The betamimetic drug was the factor which started the myocardial ischemia as evidenced by the serial electrocardiograms. The importance of serial electrocardiograms during treatment with ritodrin is emphasized.
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PMID:[Case report on a myocardial ischemia due to medical tocolysis with ritodrin (pre-par) (author's transl)]. 42 24

The photokymograph is a new and simple noninvasive device for assessing epicardial segmental myocardial wall motion utilizing cardiac fluoroscopy and image intensification. The validity of this technique in detecting wall motion changes occurring with ischemia was assessed in seven closed chest dogs undergoing acute balloon occlusion of the left circumflex coronary artery. Acute occlusion resulted in a prompt change in the analog signal of the photokymogram, characterized first by a decreased systolic inward motion and late systolic outward movement that later became akinetic and dyskinetic. Systolic amplitude decreased 18 +/- 7 percent (mean +/- standard error of the mean) within 5 seconds of occlusion and progressed to systolic outward motion (- 106 +/- 24 percent) at 2 minutes. The time course and type of morphologic changes observed after occlusion were similar to those previously described using invasive methods. Furthermore, such changes preceded electrocardiographic S-T segment elevation. These data suggest that photokymography is a sensitive technique for noninvasive detection of acute ischemic segmental wall motion abnormalities and holds promise as a simple method of detecting ischemic heart disease in man.
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PMID:Photokymography: a noninvasive method of detecting ischemic segmental myocardial wall motion abnormalities. 42 16

We have recently detected accumulation of lysophosphoglycerides, catabolites of phospholipids, in ischemic myocardium early after coronary occlusion. In the present study we delineated effects of selected concentrations of albumin-bound lysophosphatidyl choline (LPC) comparable to those accompanying ischemia in vivo on action potentials of isolated canine Purkinje fibers. Lysophosphoglycerides induced concentration-dependent (0.75-3.0 mM) decreases in resting membrane potential, overshoot of phase 0, maximal velocity of upstroke (Vmax) of phase 0, and action potential duration. The highest concentrations (2.0-3.0 mM) induced fractionation of the action potential into several components, unresponsiveness to external stimulation, and enhanced automaticity at normal and reduced membrane potentials. LPC induced a rightward shift in the membrane response curve, a 40-fold prolongation of conduction time, and an increase in the ratio of effective refractory period to action potential duration such that the effective refractory period persisted beyond action potential duration, resulting in postrepolarization refractoriness. These electrophysiological alterations were entirely reversible after 70 minutes of perfusion without LPC, with the exception of a persistent depression in the Vmax of phase 0. Lysophosphatidyl ethanolamine (LPE) elicited alterations in action potentials indentical to those elicited by LPC. Furthermore, LPC (3.0 mM) induced comparable alterations in action potentials recorded from isolated rabbit papillary muscles. Since lysophospholipids accumulate early after myocardial ischemia, and since concentrations equivalent to those occurring in vivo induce electrophysiological alterations resembling those seen in ischemic myocardium in vivo, lysophosphoglycerides may be of major importance as biochemical mediators of malignant dysrhythmia induced by ischemia.
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PMID:Potential arrhythmogenic electrophysiological derangements in canine Purkinje fibers induced by lysophosphoglycerides. 42 75

The influence of the Valsalva maneuver (VM) on myocardial ischemia was evaluated in 24 patients with coronary heart disease. Clinical and hemodynamic responses to the VM were studied during acute ischemia manifested by angina pectoris with transient left ventricular (LV) dysfunction and compared with responses during nonischemic intervals. In the absence of evidence for acute ischemia (angina and increased LV end-diastolic pressure), six patients had abnormal hemodynamic responses to the VM. Five had lack of systolic pressure overshoot and in one, systolic pressure did not decline during straining. When the VM was performed during an ischemic episode, 14 patients had abnormal responses (12 with lack of overshoot in phase IV and two with lack of systolic pressure decline in phase II). In 18 patients a prompt decline in LV end-diastolic pressure occurred with the disappearance of angina during the VM. These changes uniformly occurred during the latter part of straining (VM phase II) as cardiac size and systolic pressure declined. No adverse effects occurred when a VM was performed during acute ischemia. Our observations suggest that the VM abruptly reduces determinants of cardiac oxygen demand, relieving acute ischemia without harmful effects.
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PMID:Effects of the Valsalva maneuver on myocardial ischemia in patients with coronary artery disease. 43 22

The present study was done to quantitate the evolution of myocardial ischemic cell death within the framework of (1) the anatomical boundaries of the ischemic bed at risk and (2) the magnitude and transmural distribution of collateral blood flow. Myocardial ischemia was produced by proximal circumflex (LCC) occlusions in open chest dogs. Infarcts reperfused at 40 minutes, 3 hours, or 6 hours were compared with permanent infarcts. All dogs were sacrificed at 4 days. Regional myocardial blood flow was measured with 9-micrometer tracer microspheres before, and 20 minutes after, LCC occlusion. The location and size of the ischemic LCC bed at risk was determined by a dye injection technique. Infarct size was quantitated from multiple histologic sections. Necrosis involved 28 per cent, 70 per cent, and 72 per cent of the ischemic bed at risk in infarcts reperfused at 40 minutes, 3 hours, and 6 hours versus 79 per cent following permanent LCC ligation. Viable and potentially salvageable subepicardial muscle persisted for at least 3 hours after the onset of ischemia. Most of the salvageable myocardium was in the subepicardial region. In all groups, the lateral margins of necrosis were sharp in the subendocardial zone and were determined by the anatomical boundaries of the ischemic LCC bed at risk. LCC bed size ranged from 29 to 48 per cent of the left ventricle and thus contributed to variation in infarct size. However, infarct size, as a percentage of bed size, was determined by the transmural extent of necrosis within that bed (r = -0.97). This transmural extent of necrosis was related to subepicardial collateral flow after 3 hours (r = 0.92) and 6 or 96 hours (r = -0.85) but not after 40 minutes (r = -0.26) of ischemia. Thus, irreversible injury of ischemic myocardium developed as a transmural wavefront, occurring first in the subendocardial myocardium but ultimately becoming nearly transmural. Eventual transmural necrosis, and therefore over-all infarct size was determined by, and can be predicted from flow measurements obtained shortly after coronary occlusion.
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PMID:The "wavefront phenomenon" of myocardial ischemic cell death. II. Transmural progression of necrosis within the framework of ischemic bed size (myocardium at risk) and collateral flow. 44 73

Computerized tomography was evaluated as a technique for imaging and measuring the effect of an intervention on acutely ischemic myocardium. Because cell edema occurs with acute myocardial ischemia and decreases the X-ray attenuation coefficients (tissue density) of myocardium, computerized tomographic images were used to quantitate the effect of hyperosmotic mannitol on ischemia-induced edema. Canine hearts were arrested and scanned after (1) temporary occlusion of the proximal circumflex artery followed by reflow of blood, or (2) continued occlusion of the distal left anterior descending coronary artery. X-ray attenuation values (Hounsfield units) were linearly related to tissue wet/dry weight ratios (r = 0.87, P less than 0.001). After 2 hours of occlusion of the left anterior descending coronary artery the hearts that received mannitol manifested a significant reduction (P less than 0.05) in the volume of left ventricular wall involved with edema. Although the area of edema measured with computerized tomography tended to be smaller in the hearts treated with mannitol than in untreated hearts subjected to a 6 hour occlusion of the left anterior descending coronary artery, the size of the lesion was variable and did not differ significantly from that in untreated hearts. With either short periods of circumflex arterial occlusion followed by blood reflow or with 2 or 6 hours of prolonged occlusion of the left anterior descending coronary artery, the difference in mean attenuation coefficients between the ischemic and nonischemic areas of myocardium in mannitol-treated and untreated hearts was significantly less. These results indicate that computerized tomography in the arrested heart can detect and quantitate the lesion of early acute myocardial ischemia and can quantitate the effect of drug intervention.
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PMID:Assessment of drug intervention on the ischemic myocardium: serial imaging and measurement with computerized tomography. 45 45

We have investigated the rate of rise of myocardial PCO2 (PmCO2) after coronary artery occlusion using a new method for this measurement. Previous studies of PmCO2 have been limited by the slow response of the only available method, and no increase in MmCO2 prior to 3 minutes after occlusion has been found. We have implanted a miniature PCO2 electrode, with a 63% response time of 14 seconds, into the left ventricle of 14 open-chest dogs. After abrupt coronary occlusion, PmCO2 began to rise in 13.6 +/- 1.1 seconds in heparinized dogs and in 7.5 +/- 0.7 seconds in unheparinized dogs. The subsequent magnitude of the increase in PmCO2 was 24, 88, 171, and 222 mm Hg at 2, 5, 10, and 15 minutes after occlusion. The rate of rise of PmCO2 was essentially linear from 1 minute to 10 minutes at a rate of 18.3 mm Hg/min. The rate of rise was slower during the first 30 seconds after occlusion (6.1 mm Hg/min) and also from 30 seconds to 1 minute (9.7 mm Hg/min). This rate of rise is much greater than that previously observed and reflects the severe myocardial acidosis developing during ischemia. A rise in PmCO2 is one of the earliest metabolic changes that has been observed during myocardial ischemia.
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PMID:Rate of rise of myocardial PCO2 during early myocardial ischemia in the dog. 45 97

The ability of prostacyclin (PGI2) to alter responses to acute myocardial ischemia was studied in open-chest, anesthetized cats. PGI2 was infused intravenously at 0.5 nmoles kg-1 min-1 in cats subjected to 5 h of myocardial ischemia by occlusion of the LAD coronary artery, and in sham-operated controls. GI2 infusion resulted in significantly decreased arterial blood pressure and inhibition of platelet aggregation. Coronary ligation resulted in significant S-T segment elevations lasting 5 h in vehicle-treated animals but only 1 h in cats with myocardial ischemia and receiving PGI2. At 5 h, cats with ischemia and given the vehicle showed S-T segment elevations significantly greater than the other two groups. Ischemic myocardium from vehicle-treated animals exhibited significantly less creatine phosphokinase (CPK) specific activity than normal tissue from the same hearts or myocardial tissue from the other two groups. This loss of CPK from ischemic myocardium of the cats given vehicle was reflected in plasma CPK specific activities which were significantly greater than those of sham-operated cats. The cats with ischemia and treated with PGI2 exhibited lower plasma CPK activities. These changes were moderated by PGI2 infusion during myocardial ischemia. PGI2 infusion may protect the ischemic myocardium by reducing oxygen demand, primarily through reductions in cardiac work, and by perhaps inhibiting platelet aggregation and preserving myocardial cell integrity.
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PMID:Studies on the protective effect of prostacyclin in acute myocardial ischemia. 46 18

This study was conducted to determine whether low level exposure to carbon monoxide would increase myocardial ischemia associated with acute myocardial infarction. An hour after coronary artery ligation, eleven anesthetized dogs underwent five sequential respiratory exposures to 5,000 ppm carbon monoxide, producing mean blood carboxyhemoglobin levels of 4.9% to 17.0%. Ischemia, as indicated by the amount of S-T segment elevation in epicardial electrocardiograms, increased significantly at the lowest carboxyhemoglobin level and increased further with increasing carbon monoxide exposure. These changes occurred in the absence of altered heart rate, blood pressure, left atrial pressure, cardiac output, or blood flow to ischemic myocardium. Flow to non-ischemic myocardium increased with carbon monoxide exposure, the percentage increase being approximately double the increase in carboxyhemoglobin level. Thus, low level exposure to carbon monoxide can significantly augment ischemia in acute myocardial infarction, apparently through a reduction in oxygen supplied to ischemic tissue. The data suggest that hypoxia induced by carbon monoxide exposure is more severe than can be accounted for by a simple reduction in oxygenated hemoglobin.
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PMID:Augmentation of myocardial ischemia by low level carbon monoxide exposure in dogs. 47 72

The risk of instantaneous death due to ventricular fibrillation was compared in resting and exercised dogs. Three weeks before testing, all dogs had bipolar left ventricular stimulating electrodes implanted and a reversible snare was placed around the anterior descending coronary artery. The dogs were randomly assigned to either an exercise (13 dogs) or a control (12 dogs) group. We measured ventricular fibrillation thresholds (VFTs) in all dogs before and after inducing ischemia by tightening the snare while the dogs stood at rest. The next day, nonischemic and ischemic VFTs were redetermined for control dogs at rest and for the exercise group during a treadmill run. No statistically significant changes were noted within and between groups in nonischemic or in ischemic VFTs at rest. In five exercise dogs, spontaneous ventricular fibrillation occurred during the first 8 minutes of the ischemic run, For the eight other exercise dogs, running increased the mean drop in VFTs during coronary occlusion by 23% (p less than 0.01). These data suggest that moderate dynamic exercise may greatly enhance the risk of ventricular fibrillation and sudden death in the presence of myocardial ischemia. In the absence of ischemia, exercise does not appear to increase vulnerability to ventricular fibrillation.
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PMID:Effect of submaximal exercise on vulnerability to fibrillation in the canine ventricle. 47 84


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