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Query: UMLS:C0018801 (heart failure)
 72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antioxidant enzyme activities, including superoxide dismutase, glutathione peroxidase and catalase, are known to be altered under various physiological and pathophysiological conditions. There is a significant increase in some of these activities in the myocardium during stable hyperfunctional heart hypertrophy subsequent to pressure overload, as well as after exercise training in rats. Hearts with increased antioxidant capacity have been reported to be more resistant to in vivo and in vitro oxidative stress. On the other hand, cardiomyopathy and heart failure under a variety of conditions are accompanied by increased free radicals and lipid peroxidation. These data lead to the hypothesis that maintained or improved function during compensated heart hypertrophy may be supported by an increased antioxidant capacity, and a relative deficit in this 'antioxidant reserve' may contribute in the decompensated state.
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PMID:A relative deficit in antioxidant reserve may contribute in cardiac failure. 213 50

A complex approach to the whole range of diseases of the heart in alcoholics is presented. The authors are concerned with different variants of cardiac diseases induced by chronic alcoholism, understood and referred to in the light of the WHO concept as "alcoholic diseases of the heart". These conditions fall within the category of specific diseases of the myocardium, which in the stage of evident manifestations of cardiac insufficiency and dilation of the cavities are termed alcoholic cardiomyopathies. Although the etiology is not yet fully understood, the direct toxic effects of ethanol and acetaldehyde upon the structure and function of the myocardium due to the decreased functional activity of alcohol dehydrogenase and catalase are known to be involved in the development of alcoholic diseases of the heart. In chronic alcoholism the changes in the myocardium become increasingly irreversible. Moleculo-biological, biochemical, clinical, and morphological changes on cardiomocytes arising after the extensive effect of alcohol on different systems of the body are described in detail. The specific characteristics of clinical manifestations of different alcoholic diseases of the heart are analyzed and the currently used therapeutic procedures are discussed in relation to the clinical form and stage of the disease in the light of close cooperation with micrological departments.
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PMID:[Heart diseases in alcoholics]. 233 55

Enzymes in the human myocardium following sudden death were examined for activity in a quantitative histoenzymological study, these were NAD-dependent dehadrogenases of succinate (SDG), lactate (LDG), beta-hydroxybutyrate (beta-HOBDG), alpha-glycerophosphate (alpha-GPDG), alcohol (ADG), glucoso-6-phosphate (G-6-PDG), and NAD-diaphorase (NADse), and catalase. Autopsies were performed within 3 h after death. beta-HOBDG and LDG were found to show an increase in activity in the cardiomyocytes of sudden death subjects with coronary heart disease without apparent changes. In the myocardium from death subjects with coronary heart disease and large postinfarct cardiosclerosis, the activity of the enzymes was directly related to the severity of myocardial hypertrophy and signs of chronic heart failure. As myocardial hypertrophy developed, the enzyme activity increased; when there appeared signs of chronic heart failure it decreased. The myocardium from sudden death subjects with alcoholic cardiomyopathy showed diminished redox enzyme activity and higher activity of the enzyme utilizing alcohol (ADG and catalase). The findings suggest that changes in the enzyme activity in the myocardium are of various type and depend on previous cardiac abnormalities.
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PMID:Quantitative histoenzymological characteristics of the myocardium in sudden cardiac death. 252 98

The present study has examined early cellular effects of chronic adriamycin administration to dogs using a protocol (1 mg/kg/week to a total cumulative dose of 240 mg/m2) producing significant but small reductions in ejection fraction and stroke volume as determined echocardiographically prior to the development of clinical or radiological manifestations of heart failure. At this early phase of cardiomyopathy, significant reduction (P less than 0.05) in sarcoplasmic reticulum Ca2+, K+-ATPase was observed without any change in mitochondrial, lysosomal or sarcolemmal marker enzymes. Myocardial calcium (P less than 0.01) and glutathione (P less than 0.001) levels were increased significantly. Detailed analysis of myocardial phospholipid profiles failed to show any significant differences between control and treated dogs. In contrast, red cell membranes showed increased phosphatidylcholine (PC) and decreased phosphatidylserine (PS) contents, resulting in a significant increase in PC/PS ratio (P less than 0.05). No significant changes were detected in activities of catalase, superoxide dismutase or glutathione peroxidase in erythrocytes or myocardial tissue from control and adriamycin-treated animals. A significant (P less than 0.05) elevation in plasma sialic acid was observed following adriamycin treatment. Our results suggest that early adriamycin-induced damage is unlikely to result from alterations in cellular processes protecting tissues against oxidant injury. Regression analysis indicated that, of the various abnormalities observed, only the elevated myocardial calcium levels and the increases in plasma sialic acid correlated with the degree of myocardial functional impairment. Our findings suggest the presence of sarcolemmal alterations in Ca2+ handling in early adriamycin-induced myocardial injury and indicate that measurement of plasma sialic acid should be further investigated as a possible noninvasive indicator of impending adriamycin cardiotoxicity.
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PMID:Adriamycin cardiomyopathy: implications of cellular changes in a canine model with mild impairment of left ventricular function. 299 97

During radiotherapy of thoracic tumors, the heart is often included in the primary treatment volume, and chronic impairment of myocardial function occurs. The cellular biomolecules are altered directly by radiation or damaged indirectly by free radical production. The purpose of this investigation was to evaluate the biochemical and functional responses of the rat heart to a single high dose of radiation. The effect of 20 Gy local X irradiation was determined in the heart of Wistar rats under general anesthesia. Mechanical performances were measured in vitro using an isolated perfused working heart model, and cardiac antioxidant defenses were also evaluated. Hearts were studied at 1 and 4 months after irradiation. This single dose of radiation induced a marked drop in the mechanical activity of the rat heart: aortic output was significantly reduced (18% less than control values) at 1 month postirradiation and remained depressed for the rest of the experimental period (21% less than control 4 months after treatment). This suggests the development of myocardial failure after irradiation. The decline of functional parameters was associated with changes in antioxidant defenses. The decrease in cardiac levels of vitamin E (-30%) was associated with an increase in the levels of Mn-SOD and glutathione peroxidase (+45.5% and +32%, respectively, at 4 months postirradiation). However, cardiac vitamin C and catalase levels remained constant. Since these antioxidant defenses were activated relatively long after irradiation, it is suggested that this was probably due to the production of free radical species associated with the development of inflammation.
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PMID:Effect of in vivo heart irradiation on the development of antioxidant defenses and cardiac functions in the rat. 756 73

Hypertrophy and heart failure were induced by placing a mildly constrictive band around the ascending aorta in young guinea pigs. Based on heart weight, left ventricular wall thickness, hemodynamic data, and other clinical signs, these animals were found to have physiological hypertrophy at 10 wk and congestive heart failure (CHF) at 20 wk. Hearts from these two groups of animals were examined for superoxide dismutase (SOD), glutathione peroxidase (GSHPx), and catalase activities as well as lipid peroxidation and glutathione [reduced glutathione (GSH)/oxidized glutathione (GSSG)] levels. There was an age-dependent increase in SOD activity and GSH content in sham controls. SOD activity was 28% higher in the 10-wk-hypertrophy group and 46% lower in the CHF group than in respective sham controls. GSHPx activity increased significantly in the hypertrophied hearts, whereas in the failing hearts, the activity was not different from the 20-wk controls but was significantly lower than in the hypertrophied hearts. Catalase activity did not change at either stage. GSH content in the hypertrophied hearts was significantly higher compared with sham controls. In the CHF group, GSH content was significantly lower and GSSG content was significantly higher than in sham controls. Lipid peroxidation, as indicated by malondialdehyde content, was significantly decreased in the hypertrophy group but increased toward control levels in the failure group. It is proposed that a relative deficit in myocardial antioxidant capacity as well as in the redox state may play a role in the pathogenesis of cardiac failure.
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PMID:Antioxidant changes in hypertrophied and failing guinea pig hearts. 818 5

Coarctation of the abdominal aorta in rats for 10 wk increased the heart weight-to-body weight ratio by 36% and peak left ventricular systolic pressure by 75%; there was no apparent change in the end-diastolic pressure, and animals did not show any clinical signs of heart failure. These hypertrophied (H) hearts showed increased activities of superoxide dismutase (SOD) and glutathione peroxidase (GSHPx) with no change in catalase. Lipid peroxide content as indicated by the malondialdehyde (MDA) level was lower in H hearts. There was no apparent difference in either Na+ and Ca2+ content or high-energy phosphates between sham (S) and H hearts. Control and H hearts were subjected to 10 min of ischemia (I) and 15 min of reperfusion (R). Contractile failure and rise in resting tension due to I, in both S and H hearts, were comparable. On reperfusion, H hearts showed better recovery of the developed force and resting tension as well as reduced incidence of arrhythmias when compared with corresponding S hearts. Both SOD and GSHPx activities were depressed due to I-R, but these activities were significantly higher in reperfused H hearts. Reperfused H hearts also showed a better maintenance of the ultrastructure and Na+ and Ca2+ contents, recovery of high-energy phosphates, and reduced MDA levels compared with S hearts. Supplementation of the perfusion medium with SOD (120 U/ml) and catalase (80 U/ml) significantly attenuated the I-R injury in S hearts, and the response in many ways was comparable to H hearts. The study documents the therapeutic potential of increased myocardial endogenous antioxidants against oxidative stress.
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PMID:Increase in endogenous antioxidant enzymes protects hearts against reperfusion injury. 836 52

Antioxidant enzyme activities and oxidative stress were evaluated in the myocardium in relation to hemodynamic function subsequent to myocardial infarction in rats. One week after the coronary ligation, the left ventricular peak systolic pressure, left ventricular end-diastolic pressure, and aortic pressures remained near control values and there were no differences in lung and liver wet/dry weight ratios between experimental and control animals. In the 4-, 8-, and 16-week experimental animals, there was a progressive drop in left ventricular peak systolic pressure and an increase in left ventricular end-diastolic pressure. Aortic systolic pressure was depressed at 8 and 16 weeks. In myocardial infarct rats, there was a significant increase in wet/dry weight ratio of lungs at 8 weeks and at 16 weeks; this ratio was increased for lungs as well as liver. Based on the hemodynamic data as well as other observations, animals in the 1-, 4-, 8-, and 16-week groups were arbitrarily categorized into nonfailure and mild, moderate, and severe failure stages, respectively. In the nonfailure stage, there was a marginal increase in superoxide dismutase, glutathione peroxidase, and catalase activities as well as vitamin E levels. The redox state in these hearts, assessed by the reduced/oxidized glutathione ratio, was significantly increased. Superoxide dismutase activity was unchanged in mild and moderate failure stages but significantly depressed at 16 weeks. Glutathione peroxidase and catalase activities showed progressive decreases through mild, moderate, and severe failure stages. Vitamin E levels were significantly depressed at moderate and severe failure stages. There was a progressive increase in lipid peroxidation at mild, moderate, and severe stages of heart failure and the redox ratio was significantly depressed in the severe failure stage. These data suggest that heart failure subsequent to myocardial infarction may be associated with an antioxidant deficit as well as increased myocardial oxidative stress.
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PMID:Antioxidant and oxidative stress changes during heart failure subsequent to myocardial infarction in rats. 854 18

Twenty patients of heart failure and ten matched healthy controls were included in the trial. Out of these 20 patients of heart failure, 12 patients were also studied prospectively. Plasma levels of superoxide anion and malonyldialdehyde were increased while the levels of superoxide dismutase, catalase and glutathione reductase were decreased in patients of heart failure as compared to control subjects. The alteration in oxidative stress and antioxidant system did not correlate with the age and sex of patients or the etiology of heart failure. With the increasing severity of heart failure the malonyldialdehyde and superoxide anion increased significantly and catalase, glutathione reductase and superoxide dismutase levels decreased. The group of heart failure patients with ejection fraction < 40% (n = 7) exhibited significantly higher levels of malonyldialdehyde than those with an ejection fraction > 40% (n = 13). The superoxide anion and malonyldialdehyde levels were significantly higher in patients of heart failure in the pre-treatment state as compared to those in post-treatment state. Conversely catalase, glutathione reductase and superoxide dismutase were higher in the post-treatment period as compared to their values before treatment. The addition of vitamin E in doses of 400 mg once a day orally for 4 weeks significantly reduced the malonyldialdehyde and superoxide anion levels and produced an elevation of the antioxidant enzymes. Thus, there is an apparent normalisation of the indices of oxidative stress following treatment of heart failure and a markedly improved response on vitamin E supplementation which may be more beneficial.
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PMID:Oxy free radical system in heart failure and therapeutic role of oral vitamin E. 901 63

Normal ageing is associated with different changes in the cardiovascular system that lead to an increase in pathological processes such as hypertension and heart failure. Therefore the importance of glutathione peroxidase and catalase for protection against peroxidation was studied in the rat heart. Each of the these enzymes was regulated by feeding rats a low selenium diet either unsupplemented or supplemented with 0.4 parts per million of selenium, with or without the catalase inhibitor, sodium fluoride, in their drinking water. After 2 months, selenium deficient rats had 87% reductions in mitochondrial and cytosolic glutathione peroxidase activities. These reductions were accompanied by increased peroxidation in heart homogenates and mitochondrial suspensions. Since increased mitochondrial peroxidation only occurred when both the cytosolic and mitochondrial glutathione peroxidase activities were involved, these selenoenzymes appear to work in tandem and reductions in both are a prerequisite for increased peroxidation in the heart. Peroxidation did not occur in sodium fluoride treated rats even though cytosolic catalase activity was inhibited by 70%. Moreover, inhibition of catalase activity did not exacerbate the level of peroxidation in selenium deficient rats depleted of glutathione peroxidase activity. Because increased peroxidation was only associated with reductions in glutathione peroxidase activity irrespective of catalase activity, the selenoenzyme appears to be more important for detoxification of hydrogen peroxide in the heart.
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PMID:Enzymatic defenses of the rat heart against lipid peroxidation. 922 21


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