Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0151814 (coronary occlusion)
 3,687 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fifty-seven isolated, blood perfused, continuously weighed canine hearts have been utilized to study the development of abnormal myocardial fluid retention during early myocardial ischemic injury. Inflatable balloon catheters were positioned around the left anterior descending coronary arteries (LAD) of 54 hearts or the proximal left circumflex coronary arteries of three hearts for study of the following intervals of coronary occlusion: a) 10 minutes followed by 20 minutes of reflow, b) 40 minutes followed by either no reflow or by 20 minutes of reflow, and c) 60 minutes without reflow. After 60 minutes of fixed coronary occlusion, histologic and ultrastructural examination revealed mild swelling of many ischemic cardiac muscle cells in the absence of interstitial edema, cardiac weight gain, and obvious structural defects in cell membrane integrity. After 40 minutes of coronary occlusion and 20 minutes of reflow, significant cardiac weight gain occurred in association with characteristic alterations in the ischemic region, including widespread interstitial edema and focal vascular congestion and hemorrhage and swelling of cardiac muscle cells. Focal structural defects in cell membrane integrity were also noted. The development of abnormal myocardial fluid retention after 40 minutes of LAD occlusion occurred in association with a significant reduction in sodium-potassium-ATPase activity in the ischemic area, but with no significant alteration in either creatine phosphokinase or citrate synthase activity in the same region. Despite the abnormal myocardial fluid retention in these hearts, it was possible pharmacologically to vasodilate coronary vessels with adenosine and nitroglycerin infusion to maintain a consistently high coronary flow following release of the coronary occlusion after 40 minutes and to even exceed initial hyperemic flow values following release of the occlusion when adenosine and nitroglycerin infusion was delayed until 15 minutes after reflow. Thus, the data indicate that impaired cell volume regulation and interstitial fluid accumulation and focal structural defects in cell membrane integrity are early manifestations of ischemic injury followed by reflow, but fail to establish a major role for the abnormal fluid retention in altering coronary blood flow prior to the development of extensive myocardial necrosis. In contrast, fixed coronary occlusion for 60 minutes results in mild intracellular swelling but no significant interstitial edema and no obvious structural defects in cell membrane integrity.
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PMID:Abnormal myocardial fluid retention as an early manifestation of ischemic injury. 13 29

Because the Na+ pump is considered to modulate the contractile force development by the cardiac muscle and depressed cardiac pump function is the hallmark of congestive heart failure, we characterized the sarcolemmal Na(+)-K(+)-ATPase activity in failing rat hearts after myocardial infarction. For this purpose, the left ventricular coronary artery was ligated, and hearts were examined 4, 8, and 16 wk later; sham-operated animals served as controls. Hemodynamic assessment revealed the presence of abnormal cardiac function at 4, 8, and 16 wk. Although accumulation of ascites in the abdominal cavity was present in experimental animals at 4 wk, other clinical signs of congestive heart failure in experimental rats including lung congestion and cardiac dilatation were evident 8 and 16 wk after induction of myocardial infarction. The depression in Na(+)-K(+)-ATPase activity in purified sarcolemmal membrane from the uninfarcted experimental left ventricle at 8 wk was associated with depressed Vmax without any changes in the affinities for Mg-ATP, Na+, and K+ or the pH optimum for the enzyme. The Kd values of both the high- and low-affinity binding sites for [3H]ouabain, which is believed to interact with Na(+)-K(+)-ATPase, were increased; however, no change in the density of either class of ouabain binding site was evident. The depression of Na(+)-K(+)-ATPase activity in failing hearts at 16 wk of myocardial infarction was not different from that observed at 8 wk but the enzyme activity was not altered at 4 wk of coronary occlusion. These data support the view that depression of Na(+)-K(+)-ATPase activity may serve as an adaptive mechanism during the development of congestive heart failure.
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PMID:Sarcolemmal Na(+)-K(+)-ATPase activity in congestive heart failure due to myocardial infarction. 131 80

Radiolabeled deoxyglucose (FDG) has been advocated as a marker of viability of reperfused myocardium during acute infarction. However, data for such recommendation are few. We investigated cardiac deposition of C-14 deoxyglucose (C-14 DG) and of Thallium -201 (Tl-201) in rabbits subjected to coronary occlusion (15, 30, 60 or greater than 100 min) and reperfusion (75 min and 24 h). Measured myocardial concentrations of C-14 DG and Tl-201 in macroautoradiograms were quantitatively correlated in a 24 h reperfusion group with presence of myocardial necrosis evaluated by light microscopy. The major finding in this investigation was that with 30 min or 60 min of ischemia followed by reperfusion there were myocardial regions with significant hypoperfusion (Tl-201) and histologic necrosis. However, in the same myocardial areas, the deposition of C-14 DG was not correlated with the extent of necrosis (r = 0.27). Also, the deposition of C-14 DG in acute myocardial infarction was higher than that of Tl-201 (P = 0.05 by paired T test and by nonparametric Wilcoxon's test). It was also demonstrated that when the occlusion time was varied (15-130 min) and early reperfusion was provided for 75 min or omitted altogether, the myocardial accumulation of Tl-201 was variable and that myocardial sequestration of C-14 DG was higher than perfusion in central and peripheral portions of the area-at-risk. These observations do not support a role for the use of radiolabeled deoxyglucose for the detection of myocardial viability in recently infarcted cardiac muscle.
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PMID:Discordance between accumulation of C-14 deoxyglucose and Tl-201 in reperfused myocardium. 188 39

Six hours of coronary occlusion has been thought to produce extensive and irreversible transmural damage and no possibility of salvage by reperfusion. This has been based on findings of adenosine triphosphate depletion and histochemical (triphenyltetrazolium chloride nonstaining) and ultrastructural changes (conventional preparatory techniques). This study tests the hypothesis that, in contrast to conventional wisdom, considerable structural and mitochondrial functional integrity remains in cardiac muscle subjected to 6 hours of regional ischemia. Twenty open-chest anesthetized dogs underwent isolation of the left anterior descending coronary artery and were observed for 6 hours. Eight of the 20 did not undergo ischemia and served as controls. Twelve underwent 6 hours of proximal ligation of the left anterior descending coronary artery (30% +/- 2% area at risk). Transmural biopsy specimens were analyzed. Coronary occlusion reduced regional blood flow (radioactive microspheres) to less than 10 ml/100 gm/min (p less than 0.05) and dyskinesia persisted in the area at risk for 6 hours. High-energy phosphates (adenosine triphosphate and creatine phosphate) declined to negligible levels and histochemical damage occurred (49% +/- 12% triphenyltetrazolium chloride non-staining). Mitochondrial ultrastructural changes (low protein denaturation embedding technique) were mild (the integrity of the inner and outer mitochondrial surface membranes and crystal membranes was maintained and myofibrillar degeneration did not occur). Mitochondrial oxidative phosphorylation rate remained at 63% of control levels, respiratory control index remained at 77%, and adenosine diphosphate/oxygen ratio was maintained at 96%. Mitochondrial Ca++ increased with lanthanum (from 26 to 46 nmol/mg protein, p less than 0.05), but irreversible calcium precipitation did not occur; calcium could be mobilized to normal levels (i.e., 13 nmol/mg protein) by ethylenediaminetetraacetic acid chelation. These data support our inference that necrosis does not occur after 6 hours of coronary occlusion and suggest that muscle salvage by reperfusion is possible after at least 6 hours of regional myocardial ischemia.
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PMID:Studies on prolonged acute regional ischemia. I. Evidence for preserved cellular viability after 6 hours of coronary occlusion. 281 16

In the ischemic state, which leads to myocardial infarction, there is a gradation of cardiac muscle injury and a sequence of functional loss. On coronary occlusion an immediate cellular leak of potassium occurs and the rate of relaxation declines. Within 1 to 2 minutes there is complete loss of contraction followed by the onset of contracture in 7 to 10 minutes in isolated preparations. The major problem of this initial period, if the occlusion zone is not too great, is electrical dysfunction. The next 1 to 6 hours is the period of variable reversible injury. Positron emission tomography technique and fatty acid and carbohydrate tracers quantitatively assess regions that are metabolically competent. The problem is to maintain and improve the competence of these regions during reperfusion, whether by thrombolytic therapy (streptokinase) or tissue plasminogen activator, percutaneous transluminal angioplasty, acute coronary artery bypass graft or by total vented bypass and regional reperfusion without thoracotomy (procedure under development).
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PMID:Cardiac ischemia. Part I--Metabolic and physiologic responses. 361 16

Free fatty acids are the major energy source for cardiac muscle. Oxidation of fatty acid decreases or even ceases during ischemia. Its recovery after transient ischemia remains largely unexplored. Using intracoronary carbon-11 palmitic acid as a tracer of myocardial fatty acid metabolism in an open chest dog model, retention and clearance of tracer in myocardium were evaluated at control, during ischemia and after reperfusion following a 20 minute occlusion of the left anterior descending coronary artery. Myocardial C-11 time-activity curves were analyzed with biexponential curve-fitting routines yielding fractional distribution and clearance half-times of C-11 palmitic acid in myocardial tissue. In animals with permanent occlusion and intracoronary injection of C-11 palmitic acid distal to the occlusion site, the relative size and half-time of the early clearance curve component differed markedly from control values and did not change with ongoing ischemia. Conversely, in animals with only 20 minutes of coronary occlusion, the relative size of the early C-11 clearance phase was still significantly depressed at 20 and 90 minutes of reperfusion but returned to control level at 180 minutes. Tissue C-11 clearance half-times remained significantly prolonged throughout the reperfusion period. Regional function in reperfused myocardium monitored with ultrasonic crystals recovered slowly and was still less than control after 3 hours of reperfusion. The data indicate that after transient ischemia, myocardial fatty acid metabolism fails to recover immediately. Because the metabolic recovery occurs in parallel with recovery of regional function, C-11 palmitic acid in conjunction with positron tomography may be useful for studying regional fatty acid metabolism noninvasively after an ischemic injury, and may be helpful in identifying reversible tissue injury.
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PMID:Retention and clearance of C-11 palmitic acid in ischemic and reperfused canine myocardium. 401 19

When acute myocardial infarction occurs in patients with hypertension and left ventricular hypertrophy (LVH), the incidence of sudden cardiac death increases markedly. Possible explanations include increased size of the occluded vascular bed secondary to more extensive atherosclerotic coronary vascular disease in the presence of hypertension, decreased coronary reserve secondary to LVH, and intrinsic electrophysiologic abnormalities in hypertrophied cardiac muscle. To explore these possibilities, we produced acute circumflex coronary occlusion during the resting, conscious state in 32 control dogs and in 28 dogs with hypertensive LVH. Before coronary occlusion, mean arterial pressure was 96 +/- 0.1 mm Hg in control dogs and 125 +/- 5 mm Hg in dogs with hypertensive LVH (p less than 0.01). The control left ventricular/body weight ratio was 4.5 +/- 0.1 g/kg, compared with 6.1 +/- 0.1 g/kg in hypertensive LVH (p less than 0.01). Cumulative mortality at 6, 24 and 48 hours was 9%, 13% and 16% in control dogs and 32%, 43% and 54%, respectively, in dogs with hypertensive LVH (all p less than 0.01 vs control). The perfusion fields of the occluded vessel defined by postmortem coronary angiography were similar in the two groups (31 +/- 2% of left ventricular mass for control vs 29 +/- 2% for hypertensive LVH). Thus, the increased incidence of sudden cardiac death after coronary artery occlusion in hypertensive LVH dogs cannot be explained by increased size of the occluded vascular bed and is probably related to the decreased coronary reserve or intrinsic electrophysiologic abnormalities that characterize pressure-induced hypertrophied cardiac muscle.
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PMID:Effects of chronic hypertension and left ventricular hypertrophy on the incidence of sudden cardiac death after coronary artery occlusion in conscious dogs. 621 Apr 60

In this study we have compared myocardial lesions induced by catecholamines and coronary occlusion and reperfusion injuries in rats. Although microcirculatory factors were found to play an important role in catecholamine-induced cardiac muscle cell injury, alterations in sarcolemmal membrane permeability suggest a direct cardiotoxic effect. Cardiac muscle cells damaged irreversibly by ischemia reveal sarcomeres in extreme relaxation and mitochondria with floccular densities; cardiac muscle cells that die following reperfusion exhibit contraction band formation and mitochondria with calcium phosphate deposits. The ultrastructural appearance of reperfused ischemic cardiac muscle cells was similar to that observed following administration of catecholamines. These morphological similarities suggest a common causal pathway for stress-induced and ischemic heart diseases.
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PMID:Reperfusion injury. A possible link between catecholamine-induced and ischemic myocardial alterations. 685 68

1. Quantitative analysis of structural proteins from a minute amount of myocardial tissue was performed from 10 mu thick cardiac tissue slices weighing 2 to 5 mg by the extraction in glycerol solution and by sodium dodecylsulfate (SDS) gel electrophoresis, and these changes were compared with the histologic alterations in the striated structure of the adjacent cardiac slices in the experimental myocardial infarction in the dog. 2. Approximately 69 micrograms of structural proteins were obtained from 1 mg of the normal heart muscle. In the central portions of the myocardial infarction, reductions in myosin heavy chain (HC), light chain (LC) 1 and alpha-actinin were observed at 12 to 24 hours after the coronary occlusion followed by the decrease in myosin LC 2 at 48 hours. Those changes became intense at 72 hours to 7 days, but restored gradually at 14 to 28 days. 3. Alterations in the striated structure of cardiac muscle fibers of the adjacent tissues slices were found simultaneously with the changes in structural proteins. At 12 to 24 hours after the coronary ligation increase in eosinophilia and overstretch of cross-striation were observed. The findings of coagulation necrosis, loss of striation, fragmentation, swelling of A-band, etc. of the infarcted fibers were markedly observed at 48 hours to 7 days, but the histologic restoration of cardiac fibers was found with the recovery of the infarcted tissue at 14 to 28 days after the coronary ligation. 4. Changes in the compositions of structural proteins corresponded well to the alterations in the striated structure in chronology and in quantity.
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PMID:Regional changes in cardiac structural proteins in myocardial infarction: biochemical and histologic correlates. 723 Apr 98

The objective of the current editorial is to introduce a new concept ("maimed myocardium") that we believe describes more accurately the incomplete, delayed recovery of LV function that may occur late after reperfusion after AMI. It has been demonstrated previously that myocardium remains viable for a prolonged period in many patients with nonsustained coronary occlusion, despite the occurrence of myocardial necrosis; late reperfusion may result in myocardial salvage in reversibly ischemic (stunned) segments (complete recovery) and in intensely injured (maimed) segments that display partial return of LV function over time (incomplete recovery). Clinically, the basis for maimed myocardium is the observation that delayed, LV functional recovery may occur in partially infarcted segments where there has been an antecedent ischemic insult of sufficient duration to result in some degree of myocardial necrosis. Certain acute coronary syndromes characterized by nonsustained coronary occlusion followed by spontaneous reperfusion (e.g., non-Q-wave AMI) or drug-induced reperfusion induced by the exogenous administration of thrombolytic therapy are associated with incomplete, delayed recovery of LV function as detected clinically by partial improvement in serial radionuclide-ejection measurement, enhanced metabolic integrity of cardiac tissue by F-18 deoxyglucose myocardial imaging, and scintigraphic findings of reverse thallium redistribution--findings that support the presence of partially viable myocardium that has been incompletely salvaged during reperfusion late after AMI. Experimentally, delayed LV functional recovery has been reported in animal models in which prolonged coronary occlusion (hours to days) followed by reperfusion is associated with late recovery of regional LV function in myocardial segments subtending border (stunned) zones and central infarct (maimed) zones. In studies in animals and human beings, postextrasystolic potentiation and pharmacologic inotropic interventions may augment maimed and stunned segments, although the magnitude of regional contractile reserve that can be unmasked with these interventions is quantitatively less in the maimed than in stunned segments. In summary, the propensity of intensely injured or partially infarcted LV segments to display intermediate functional recovery followed by reperfusion late after coronary occlusion suggests that even severely depressed but residually viable cardiac muscle can be salvaged incompletely over time.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Incomplete, delayed functional recovery late after reperfusion following acute myocardial infarction: "maimed myocardium". 757 10


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