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Query: UMLS:C0851184 (thinning)
 11,252 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proton NMR imaging of myocardial ischemia without infarction requires the use of paramagnetic contrast agents. Even during the first few hours of infarction, imaging without contrast enhancement reveals only slight natural image contrast. Myocardial infarction, however, is much more readily detected during the first few days and weeks post coronary occlusion; this is due to a marked elevation in T2 during this time period. Chronic infarction, several months after the acute event, does not demonstrate altered signal intensity, but can be detected by visualizing myocardial wall thinning and aneurysm formation. Information regarding high energy phosphate metabolism can be acquired in vivo in ischemic animal preparations; preliminary data has demonstrated that it is possible to acquire similar information noninvasively in man. Development of this technique will eventually permit the study of pharmacological and mechanical interventions aimed at preserving myocardium in the ischemic heart. Exogenous labelling of myocardial tissue with carbon-13 permits the study of the effects of substrates on cellular metabolism. Ultimately, the technique of chemical shift imaging will provide a method of spatially resolving valuable metabolic information in the form of an NMR image. Eventually, with the gradual development of NMR technology, imaging and spectroscopy will become truly important clinical tools in the investigation of ischemic heart disease in man.
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PMID:Evaluation of myocardial ischemia and infarction by nuclear magnetic resonance techniques. 328 14

Two groups of chronically instrumented, conscious baboons were studied. The effects of coronary artery occlusion for 3 hours and reperfusion for 1 week were examined on measurements of left ventricular function, ischemic-zone wall thickness, regional myocardial blood flow, arrhythmias, and extent of necrosis. The experimental group of animals (n = 7) was treated with the calcium channel blocker nisoldipine (0.1 microgram/kg/min) from 1 hour after coronary occlusion to 3 hours after coronary reperfusion. The control group (n = 6) received the vehicle (n = 4) or saline (n = 2). The effects of coronary artery occlusion and reperfusion on arterial pressure, left ventricular systolic pressure, heart rate, and left ventricular dP/dt were similar in both groups. Systolic wall thickening was reversed to paradoxical wall thinning during occlusion in both groups, and there was no recovery to systolic wall thickening over the 1-week period in either group. There were differences in regional blood flow; during coronary artery occlusion, nisoldipine increased blood flow significantly in the endocardium and epicardium of nonischemic and ischemic zones. There was a major difference in the number of arrhythmic beats per minute on reperfusion; during reperfusion, the number of arrhythmias rose markedly in the vehicle-treated group but actually fell in the nisoldipine-treated group. The size of areas at risk, infarcts, infarcts related to the area at risk, and amount of total creatine kinase (CK) and MB-CK appearing in blood were not significantly different in the two groups. Thus, in the conscious baboon, nisoldipine administered 1 hour after coronary artery occlusion exerted a marked effect in diminishing reperfusion-induced arrhythmias and improved blood flow to the ischemic zone during occlusion but did not salvage ischemic tissue.
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PMID:Effects of calcium channel blocker on responses of blood flow, function, arrhythmias, and extent of infarction following reperfusion in conscious baboons. 333 53

Regional diastolic wall motion was studied with sonomicrometry in 30 open chest anaesthetised dogs after left anterior descending stenosis or occlusion. Post-systolic shortening and thickening, defined as the magnitude of segment shortening or wall thickening that occurred after end systole, was measured in peripheral and central ischaemic segments. These post-systolic events developed concurrently with impaired systolic shortening or thickening, either immediately after acute coronary occlusion or during progressive stenosis, and persisted with the development of dyskinesis and during reperfusion. The magnitude of these events in dyskinetic segments of 24 dogs was considerable, reaching 50(2)% (mean(SEM)) and 33(3)% of shortening or thickening that was present before coronary occlusion. Post-systolic shortening and thickening were maximum at 100(2) ms after peak negative dP/dt. Significant correlations were found between systolic shortening or thickening before coronary occlusion and post-systolic shortening (r = 0.74, 56 segments) or thickening (r = 0.84, 19 segments) after occlusion, but there was no correlation between post-systolic shortening or thickening and dyskinetic lengthening or thinning. In seven dogs followed for 4 h after coronary occlusion post-systolic shortening fell by 15% in peripheral segments and by 70% in central segments (p less than 0.002). In 17 dogs reperfused after 60 (n = 9) or 90 (n = 8) min of coronary occlusion the maximal recovery of systolic shortening early after reperfusion was significantly related to the magnitude of post-systolic shortening immediately before reperfusion (60 min occlusion r = 0.84, 90 min occlusion r = 0.88). These data show that post-systolic shortening is a marker of potential for early recovery of function of acutely ischaemic myocardium and suggest that it is due, at least in part, to an active process.
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PMID:Post-systolic shortening: a marker of potential for early recovery of acutely ischaemic myocardium in the dog. 344 Feb 62

The prognosis of patients with acute myocardial infarction is related to the infarction size. We evaluated the ability of a clinical technique, two-dimensional echocardiography, to assess infarct size based on the extent of regional contraction abnormalities. Conscious closed-chest dogs with preplaced coronary snares underwent permanent coronary occlusion. The animals were studied by two-dimensional echo 20 min and 2 days after occlusion. The extent of myocardial contraction abnormalities (systolic wall thinning instead of normal systolic thickening) was correlated with the infarct size determined pathologically. Some dogs had pressure-induced left ventricular hypertrophy. Extent of regional contraction abnormalities demonstrated by two-dimensional echo correlated well with infarct size both early (20 min) (r = 0.92) and late (2 days) (r = 0.94) after permanent coronary occlusion. Dyskinesis extent modestly overestimated the infarct size. The relationship between dyskinesis and infarct size were similar in both normal and left ventricular hypertrophied hearts. We then undertook a study to assess the effects of coronary reperfusion on dyskinesis-infarct size relationships. Conscious, closed-chest dogs underwent 1-2 h of coronary occlusion followed by 2-10 days of coronary reperfusion. Significant regional dyskinesis was present after 1-2 h of occlusion and decreased by 50-60% of the occlusion value after 2 days of reperfusion without further change in extent of dyskinesis between 2 and 10 days of reperfusion. Of importance, however, was that there was no significant correlation between infarct size and extent of regional dyskinesis by two-dimensional echo after reperfusion, either after 2 days (r = 0.09) or 10 days (r = 0.29) of reperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Late effects of coronary reperfusion on regional left ventricular function. Can infarct size be estimated noninvasively? 353 3

To determine the influence of coronary reperfusion on ventricular arrhythmias and ventricular function at 4 days post occlusion, anesthetized dogs randomly received no occlusion (sham), permanent occlusion, or 1-, 2-, 3-, 4-, or 6-hour occlusions of the left anterior descending coronary artery, followed by reperfusion. An ambulatory ECG was recorded between 78 and 96 hours. The total runs of ventricular tachycardia were 1 +/- 0 (sham), 155 +/- 101 (1 hour), 66 +/- 32 (2 hours), 56 +/- 35 (3 hours), 167 +/- 68 (4 hours), 942 +/- 618 (6 hours), and 1422 +/- 486 (permanent occlusion); the runs of ventricular tachycardia were significantly less in the combined 1- to 4-hour groups (93 +/- 24) compared to the 6-hour and permanent occlusion groups (1282 +/- 384; p less than 0.006). Similar results were obtained for the number of hours in which ventricular tachycardia or frequent ventricular premature beats occurred. At 96 hours, improvement in percent systolic wall thickening of the ischemic myocardium assessed by two-dimensional echocardiography was seen in the group reperfused at 1 hour (p less than 0.01). Similar results were obtained for the reduction in degrees of wall circumference showing systolic thinning. In summary, at 4 days post occlusion in a dog model, spontaneous ventricular arrhythmias are reduced by reperfusion within 4 hours, while return of ventricular function is only improved by reperfusion within approximately 1 hour of coronary occlusion.
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PMID:Differential effects of reperfusion on incidence of ventricular arrhythmias and recovery of ventricular function at 4 days following coronary occlusion. 357 98

Stunned myocardium can be produced by repeated short episodes of ischemia. Histochemical and ultrastructural abnormalities such as sarcomere lengthening and myofiber thinning have been noted in myocardium soon after the onset of ischemia and have been attributed to the mechanical stretching that occurs during ventricular systole. To test whether mechanical forces alone could produce the residual dysfunction seen in stunned myocardium, regional dyskinesia was produced in open chest dogs by six repeated intracoronary infusions of either potassium chloride, 0.2 mEq/min for 2.5 minutes, or lidocaine, a 10 mg bolus followed by 1 to 3 mg/min for 5 minutes. These dogs were matched with dogs that had six repeated coronary occlusions of 2.5 and 5 minutes' duration, respectively. Regional function was analyzed using fractional systolic shortening and the load-independent end-systolic pressure-length relation. Both potassium chloride and lidocaine produced regional dyskinesia that was similar to the dyskinesia produced by coronary occlusion. Although regional ventricular function after repeated coronary occlusions remained significantly reduced, function returned completely to normal within 5 minutes after the last drug-induced dyskinesia. In conclusion, regional dysfunction produced by potassium chloride and lidocaine does not produce residual dysfunction despite mechanical forces during systole similar to those seen during coronary occlusion.
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PMID:Effect of repeated episodes of drug-induced ventricular dyskinesia on subsequent regional function in the dog: comparison with myocardial stunning produced by repeated coronary occlusions. 358 22

It is hypothesized that myocardium subjected to a 5 minute period of coronary occlusion and a 30 minute period of reperfusion has latent abnormalities that become overt when the reperfused myocardium is "challenged" by a subsequent coronary occlusion. This hypothesis is clinically relevant because reperfused myocardium is frequently subjected to recurrent ischemia, as in patients with unstable angina, vasospastic angina or recurrent thrombosis after initial coronary occlusion and thrombolysis. In 19 open chest dogs, the response of regional myocardial function to brief coronary occlusions was studied. Systolic wall thickening and diastolic thinning were measured using a specially developed miniature 5 MHz echocardiographic transducer fixed to the epicardium by suction. All 19 dogs underwent an initial "challenge" coronary occlusion (30 seconds). Thereafter, the control group (n = 8) underwent no intervention for 30 minutes, while the intervention group (n = 11) underwent 5 minutes of coronary occlusion followed by 30 minutes of reperfusion. All dogs were then subjected to a second "challenge" coronary occlusion (30 seconds). In the control group, responses to the second challenge occlusion were the same as to the first occlusion. In the intervention group, regional and global systolic function and myocardial perfusion after the 5 minute coronary occlusion intervention returned to baseline levels, but the response to the second challenge coronary occlusion was significantly different in the intervention group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Altered response of reperfused myocardium to repeated coronary occlusion in dogs. 365 54

Using sonar microcrystals implanted in conscious dogs, we have characterized left ventricular segmental relaxation (LVSR) by measuring the mean rate to half end-diastolic thinning (RHEDT) and the late diastolic thinning fraction (TF). In protocol 1 (five nonischemic dogs), RHEDT correlated with changes in left ventricular dP/dt (r = .87) and systemic arterial pressure (r = -.80) but not with alterations in heart rate. Only systemic arterial pressure importantly influenced TF (r = -.65). In protocol 2 (21 dogs), LVSR paralleled net systolic segmental wall thickness (NET) during both 2 and 4 hr of coronary occlusion followed by 1 month reperfusion. Both LVSR and NET remained depressed during 2 and 4 hr of coronary occlusion and through 24 hr of reperfusion, but both also gradually improved afterwards. In protocol 3, 31 dogs underwent 4 hr of coronary occlusion with 1 month of reperfusion. Among these animals, 11 dogs (group S4) received saline after 1 hr of occlusion, nine dogs (group P4) received propranolol, and 11 dogs (group D4) received diltiazem. Drug therapy was stopped at 2 hr of reperfusion. In segments with mildly and moderately depressed NET, LVSR was significantly increased in group D4 vs group S4 animals during the diltiazem infusion. Expressed as mean percentage of control value +/- SEM, RHEDT of moderately dysfunctional segments in group D4 compared with group S4 measured 53 +/- 10% vs 25 +/- 5%, respectively, at 2 hr of occlusion of the left anterior descending coronary artery (p = .03), 76 +/- 17% vs 28 +/- 8%, respectively, at 4 hr of occlusion (p = .01), and 74 +/- 11% vs 33 +/- 10%, respectively, at 1 hr of reperfusion (p less than .05). The differences in TF at these same time points were 106 +/- 10% vs 70 +/- 9% (p less than .03), 105 +/- 7% vs 65 +/- 16% (p less than .02), and 106 +/- 11% vs 74 +/- 13% (p less than .05), respectively. The improvement in LVSR occurred independently of changes in NET. The values of LVSR in the diltiazem-treated dogs fell to the levels of groups S4 and P4 within 24 hr of stopping the intervention. Propranolol did not significantly alter LVSR over the short or long term. The increase in LVSR during administration of diltiazem did not appear to be mediated by changes in contractility or regional myocardial blood flow, but were probably mediated in part by afterload reduction and possibly by a reduction in calcium entry into ischemic myocardium.
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PMID:Effect of diltiazem and propranolol on left ventricular segmental relaxation during temporary coronary arterial occlusion and one month reperfusion in conscious dogs. 396 19

Systolic wall thickening abnormalities are sensitive indicators of ischemia and infarction. One purpose of this investigation was to assess the relation between coronary risk area, infarct size and wall thickening abnormalities (dyskinesia) using 2-dimensional echocardiography (2-D echo) in a closed-chest conscious dog model of acute myocardial infarction. The second purpose was to study the effects of systemic hypertension (SH) and left ventricular (LV) hypertrophy on these relations. Our hypothesis was that the infarct size and the extent of 2D echocardiographic dyskinesia would be quantitatively different in SH-LV hypertrophy, a condition in which coronary vascular reserve is diminished. Permanent circumflex coronary occlusion was performed in 15 conscious normal dogs and in 14 dogs with LV hypertrophy secondary to renal hypertension. Two-dimensional echocardiograms were obtained before, 20 minutes after and 2 days after coronary occlusion. The systolic wall thickening along 12 equidistant radii was analyzed in short-axis images. Percent dyskinesia on 2-D echo was defined as the percentage of radii showing systolic thinning. Infarct size was determined pathologically and risk area was determined angiographically. For a given risk area, coronary occlusion resulted in a larger infarction in dogs with SH-LV hypertrophy than in normal dogs (p less than 0.05). Two-dimensional echocardiographic dyskinesia correlated well with infarct size both at 20 minutes (r = 0.92) and 2 days (r = 0.94); dyskinesia modestly overestimated the infarct size and underestimated the risk area. The relations were similar in both normal and SH-LV hypertrophy groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relations between 2-dimensional echocardiographic wall thickening abnormalities, myocardial infarct size and coronary risk area in normal and hypertrophied myocardium in dogs. 622 35

Knowledge of left ventricular chamber dynamics is central to our understanding of cardiac physiology. The complicated changes in left ventricular geometry observed in the dog during various phases of the cardiac cycle can be represented as distinct linear relationships between chamber eccentricity and intracavitary volume during diastole and ejection, and probably represent structural properties of the ventricular wall. Chamber geometry of the left ventricle is a major determinant of overall myocardial function. The slope of the radius of curvature (r) to wall thickness (h) relationship is a geometric constant that determines the mural force at any given transmural pressure. Chronic pressure and volume overload produce changes in this geometric relationship as a result of increased mural force resisting ejection. The adaptive mechanism of ventricular hypertrophy in this setting alters the r/h ratio and returns systolic mural force toward normal. Coronary occlusion induces acute changes in regional geometry characterized by holosystolic wall bulging and systolic wall thinning, which shift the r/h relationship upward and to the left. The geometric alteration during ischemia probably increases systolic mural force and could adversely affect myocardial function. Recent studies with patients have shown the r/h ratio to be of value in distinguishing between reversible and irreversible impairment of myocardial performance. Because most myocardial diseases produce major alterations in the structure of the ventricular wall, analysis of dynamic chamber geometry may prove of prognostic value in assessing patients with cardiac disorders.
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PMID:Dynamic geometry of the intact left ventricle. 645 23


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