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

The myocardium is a complex three-dimensional structure consisting of myocytes interconnected by a dense collagen weave that courses in different directions. Regional ischemia can be expected to produce complex changes in ventricular deformation. In the present study, we examined the effects of ischemia on two- and three-dimensional finite strains during acute transmural myocardial ischemia in 13 open-chest anesthetized dogs. In contrast to systolic deformation observed during the control period in which circumferential shortening exceeded longitudinal shortening, our results indicate that after 5 minutes of acute ischemia, end-systolic in-plane lengthening across the left ventricular wall occurs in approximately equal amounts in the circumferential and longitudinal directions. Along with these changes in extensional strains, there were significant negative transverse shearing deformations during ischemia. Myocardial ischemia also resulted in a loss of the normal end-systolic transmural gradients of shortening and thickening. Three-dimensional end-diastolic strains indicate that the left ventricular wall undergoes a significant passive reconfiguration that varies transmurally with lengthening in the epicardial tangent plane and wall thinning increasing from the epicardium toward the endocardium. The large systolic changes in shearing deformations with ischemia could potentially influence collateral blood flow and certainly indicate that uniaxial measurements of deformation in the ischemic myocardium, which do not account for shearing deformation, are incomplete and must be interpreted with caution. Moreover, normal transmural systolic gradients in deformation, which would be anticipated on geometric grounds, are lost during ischemia, implying that the material properties of ischemic tissue or the loading conditions imposed on the ischemic region by partially impaired adjacent myocardium vary transmurally.
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PMID:Transmural myocardial deformation in the ischemic canine left ventricle. 199 44

Mediastinal radiation damages endothelial cells, with resulting loss of capillaries and ischemia at the level of the microcirculation. These changes lead to increases in collagen and proliferation of fibrous tissue throughout the heart. Cardiac dysfunction following radiotherapy is surprisingly common and may be due to pericardial, myocardial, valvular, conduction system, or coronary artery disease. Greater awareness of cardiotoxicity has prompted changes in radiation techniques that appear to reduce clinical cardiovascular complications.
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PMID:Cardiovascular sequelae of therapeutic thoracic radiation. 200 46

Diastolic function in coronary artery disease is modified to a variable extent. There are distinct abnormalities produced during acute ischemia, and following myocardial infarction. The pathophysiology of diastolic abnormalities in these two syndromes is reviewed. During acute ischemia filling pressures of the left ventricle are increased. Pulmonary edema may be produced. Silent ischemia causes less of an increase in filling pressures. The diastolic pressure-volume relation is shifted in an upward manner with a variable contribution from altered myocardial relaxation, increased muscle stiffness, acute pericardial restriction, ventricular interaction, and acute chamber dilatation. The impairment of myocardial relaxation plays a central role and has been quantified in multiple clinical and experimental studies. Filling of the left ventricle during ischemia is altered due to the factors which shift the pressure-volume relation. The acute increase in left atrial pressure may increase filling rates somewhat surprisingly, given the reduced left ventricular compliance. Myocardial fibrosis following infarction may elevate filling pressures, but the degree of elevation is closely tied to the intravascular volume status. Shifts in the diastolic pressure-volume relation reflect a loss of chamber compliance due to an increase in muscle stiffness. Increased amounts of extracellular matrix, specifically collagen, produce this permanent increase in muscle stiffness which is central to the diastolic abnormalities in chronic coronary artery disease.
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PMID:Diastolic function in coronary artery disease. 202 80

A vast amount of circumstantial evidence implicates oxygen-derived free radicals, especially superoxide and hydroxyl radical (and to lesser extent, hydrogen peroxide), as mediators of inflammation and/or tissue destruction in inflammatory and arthritic disorders. The substrates for radical generation, namely properly stimulated phagocytic cells, transition metal catalysts, and (to a limited extent) ischemia, are all amply present, although there is no particular rheumatic disease in which a consistent abnormality of radical generation has been identified. These radical species can clearly degrade hyaluronic acid, modify collagen and perhaps proteoglycan structure and/or synthesis, alter and interact with immunoglobulins, activate enzymes and inactivate their inhibitors, and possibly participate in chemotaxis. In most situations, however, there is ample scavenging ability to detoxify these radicals before they hit their target, and many rheumatic disease drugs can decrease their production and/or effects. Despite the apparent sufficiency of natural scavengers and the lack of direct evidence that oxygen radicals are pathogenetically important, substantial pharmaceutical effort is still being made to develop free radical scavengers as therapeutic agents. Although individual free radicals die out quickly, rheumatologic interest in them has been sustained for nearly two decades.
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PMID:Oxygen radicals, inflammation, and arthritis: pathophysiological considerations and implications for treatment. 204 55

There is a complex network of collagen throughout the heart. It is composed of a hierarchy of fibrils and fibers ranging from 10 nm to 2-3 microns in diameter. This network can be broken down by ischemia, adriamycin administration, or disulfide administration in laboratory animals. Following loss due to coronary artery ligation, the ischemic area begins bulging within 3 h. General loss of portions of the collagen matrix is induced by intravenous oxidizing glutathione, and results in marked diffuse ventricular dilatation. Generalized collagen loss in the ventricles, as induced by disulfide administration or adriamycin infusion, persists for 6 months at which time evidence of some replacement is visible, and evidence of diffuse fibrosis is present. In humans, cardiac dilatation occurs in a variety of disease states without overstretch of sarcomeres. This presumes rearrangement of the muscle bundles, which can only occur with marked alterations of the collagen matrix. Ventricular dilatation, associated with viral myocarditis or puerperal cardiomyopathy, may persist for months, suggesting the collagen loss, as with the experimental animals, takes many months to repair. The cardiac dilatation may ameliorate, or, in some patients, deteriorate into heart failure. The animal experiments with loss of the collagen matrix, ventricular dilatation, and failure to replace the matrix for many months provide an explanation for persistent cardiac dilatation in various human diseases.
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PMID:Myocardial connective tissue alterations. 209 Dec 28

Diastolic heart failure is characterized by increased resistance to diastolic filling of one or both cardiac ventricles. Although some degree of diastolic failure exists in most patients presenting clinically with heart failure, a substantial subset of patients have relatively pure diastolic heart failure with normal systolic function. Diastolic heart failure can be due to structural abnormalities that increase resistance to ventricular inflow, and these structural abnormalities can be extramyocardial (e.g., constrictive pericarditis and mitral stenosis) or intramyocardial (e.g., fibrosis and amyloidosis). In addition to structural abnormalities, physiological derangement of myocardial inactivation and relaxation can contribute importantly to diastolic dysfunction in patients with heart failure. There is mounting evidence that advanced myocardial hypertrophy is associated with increased resistance to ventricular diastolic inflow due to both structural alteration (increased wall thickness and altered collagen matrix) and impaired diastolic relaxation of the hypertrophied myocardium. Physiological mechanisms for impaired relaxation in advanced hypertrophy remain controversial but can include disordered function of myocardial sarcoplasmic reticulum, subendocardial ischemia, and altered adenylate cyclase function. Diastolic dysfunction can play an important role in the genesis of flash pulmonary edema seen in patients with ischemic heart disease because myocardial ischemia is associated with a decline in relaxation rate, increased resistance to early diastolic filling, and in some cases, a striking upward shift in the left ventricular diastolic pressure-volume relation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Diastolic dysfunction and congestive heart failure. 213 51

The association between pressure overload, left ventricular (LV) hypertrophy and failure, and abnormalities in diastolic function has been described both clinically and experimentally. The mechanisms underlying this association, however, are complex and controversial. Factors that have been implicated include mechanical alterations due to hypertrophy alone, changes in collagen type and content, alterations in beta-adrenergic responsiveness, and chronic myocardial ischemia. Studies in our laboratory have identified limitations in subendocardial flow reserve in compensated LV hypertrophy and near exhaustion in subendocardial reserve in animals with decompensated LV hypertrophy and failure. These abnormalities in coronary reserve are associated with impaired diastolic function, particularly during periods of physiological stress. For example, with pacing-induced stress, impairment in diastolic function was observed in conscious dogs with compensated LV hypertrophy. In conscious dogs with LV hypertrophy and failure, isoproterenol also resulted in altered diastolic function. Thus, in the model of severe pressure-overload hypertrophy, which is characterized by limitations in coronary reserve, the mechanism of subendocardial ischemia might be responsible in part for the impairment in diastolic function observed in response to superimposed stress.
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PMID:Reduced subendocardial coronary reserve. A potential mechanism for impaired diastolic function in the hypertrophied and failing heart. 213 53

Rupture of an atherosclerotic plaque associated with partial or complete thrombotic vessel occlusion is fundamental to the development of ischemic coronary syndromes. Plaques that produce only mild-to-moderate angiographic luminal stenosis are frequently those that undergo abrupt disruption, leading to unstable angina or acute myocardial infarction. Plaques with increased lipid content appear more prone to rupture, particularly when the lipid pool is localized eccentrically within the intima. Macrophages appear to play an important role in atherogenesis, perhaps by participating in the uptake and metabolism of lipoproteins, secretion of growth factors, and production of enzymes and toxic metabolites that may facilitate plaque rupture. In addition, the particular composition or configuration of a plaque and the hemodynamic forces to which it is exposed may determine its susceptibility to disruption. Exposure of collagen, lipids, and smooth muscle cells after plaque rupture leads to the activation of platelets and the coagulation cascade system. The resulting thrombus may lead to marked reduction in myocardial perfusion and the development of an unstable coronary syndrome, or it may become organized and incorporated into the diseased vessel, thus contributing to the progression of atherosclerosis. In unstable angina, plaque disruption leads to thrombosis, which is usually labile and results in only a transient reduction in myocardial perfusion. Release of vasoactive substances, arterial spasm, or increases in myocardial oxygen demand may contribute to ischemia. In acute myocardial infarction, plaque disruption results in a more persistent thrombotic vessel occlusion; the extent of necrosis depends on the size of the artery, the duration of occlusion, the presence of collateral flow, and the integrity of the fibrinolytic system. Thrombi that undergo lysis expose a highly thrombogenic surface to the circulating blood, which has the capacity of activating platelets and the coagulation cascade system and may lead to thrombotic reocclusion. Measurements aimed at reversing the process of atherosclerosis via cholesterol reduction and enhanced high density lipoprotein activity are encouraging. Active research is being focused on the development of new antithrombotic tools, such as inhibitors of thrombin, thromboxane, and serotonin receptor antagonists, and monoclonal antibodies aimed at blocking platelet membrane receptors or adhesive proteins. These compounds may prove useful when immediate and potent inhibition of the hemostatic system is desired. Intensive research is still needed in the areas of pathogenesis and therapeutic intervention in atherosclerosis.
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PMID:Atherosclerotic plaque rupture and thrombosis. Evolving concepts. 220 64

To substantiate the finding of interstitial myocardial fibrosis in the transplanted heart and to characterize the collagen profile of the transplanted heart, we studied endomyocardial biopsy specimens from 30 heart transplants and four heart-lung transplants at 1 to 82 months after transplantation. Indirect immunofluorescent techniques with affinity-purified antibodies for collagen types I, III, IV, and V were used. The degree of interstitial collagen present was scored. The amount of type I collagen was increased in transplants from distant donors (mean ischemia time, 154 minutes) compared with those from on-site donors (mean ischemic time, 59 minutes): collagen scores 1.1 and 1.7, respectively (P less than .01). There was a trend toward a positive correlation, not statistically significant, between cyclosporine dose and collagen III deposition (r = .35), collagen IV (r = .38), and collagen V (r = .56). There was a negative correlation between number of rejection episodes and mean cyclosporine dose (r = -.41) and amount of collagen III (r = -.42) or collagen IV (r = -.42). No correlations were found between collagen deposition and any other variables studied. These results confirm the mixed nature of the collagen deposited and suggest that some fibrosis is related to cyclosporine administration rather than to the number of prior healed rejection episodes.
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PMID:Collagen profile in the transplanted heart. 231 84

The initial effect of anticancer therapy, such as radiation and chemotherapy, is on the rapidly proliferating cells of the oral epithelium. As a consequence, the epithelium may show atrophy and ulceration. The sites of these alterations are related to the rate of epithelial proliferation. Regions of rapid proliferation, such as the oral lining mucosa, show a greater frequency of ulceration than masticatory mucosa or skin. Subsequent changes in the mucosa reflect damage to connective tissue, including fibroblasts and blood vessels. This results in hyalinization of collagen, hypovascularity, and ischemia. Indirect effects of anticancer therapy may include granulocytopenia and reduced salivary secretion, so that the protective mucin coating of the epithelium is compromised. These changes result in tissue with reduced barrier function and impaired ability to heal and to resist entry of pathogens, thus increasing the risk of systemic infections.
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PMID:Oral complications of cancer therapies. Mucosal alterations. 234 90


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