Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018801 (heart failure)
 72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report a case of Down's syndrome in a 22-year-old woman who developed vitamin C deficiency with subsequent appearance of the characteristic joint pains and cutaneous and mucosal lesions of scurvy. A low intake of vitamin C due to peculiar eating habits and reduced absorption due to cardiac insufficiency and treatment with a platelet-aggregation inhibitor were considered to have caused the deficiency. Follicular purpura is a diagnostic skin sign of scurvy.
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PMID:[Scurvy in trisomy 21]. 183 11

Pre-dialysis plasma oxalate concentration was measured in a cross-sectional study of 75 patients receiving maintenance haemodialysis. The aims of this study were to enable formulation of hypotheses regarding the determinants of plasma oxalate concentration and to allow preliminary examination of the possibility that hyperoxalaemia confers an increased risk of cardiac and vascular disease even in the absence of primary hyperoxaluria. Plasma oxalate concentration ranged between 7 and 76 mumol/l, mean (SD) 34.6 (18.1) mumol/l (normal range less than 0.8-2.0 mumol/l). Significant correlations were found between plasma oxalate concentration and plasma creatinine, duration of dialysis, current dose of ascorbic acid, and serum phosphate, and each of these variables retained significance on multiple linear regression. Oxalate clearance across a 1 m2 hollow-fibre Cuprophan dialyser, at 500 ml/min dialysate flow and blood flow between 175 and 225 ml/min, was measured 1 h after commencement of dialysis (n = 19). Mean (SD) clearance was 96.5 (27.0) ml/min. No significant association was found between self-reported maximum walking distance or the occurrence of symptoms of cardiac failure and plasma oxalate concentration. No relationship was found between plasma oxalate concentration and electrocardiographic conduction disturbances (n = 8) 'major' ST/T wave changes (n = 22), 'minor' ST/T wave changes (n = 49). Plasma oxalate was significantly greater in patients with radiologically detectable calcification of medium-sized arteries than in those without calcification, but duration of dialysis was also significantly longer in these patients. Routine haemodialysis results in marked hyperoxalaemia, which may be exacerbated by ascorbate supplementation. Oxalate clearance is similar to that of other small molecules such as creatinine and phosphate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Plasma oxalate concentration, oxalate clearance and cardiac function in patients receiving haemodialysis. 251 11

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

The oxidation states of intracellular myoglobin and cytochrome oxidase aa3 were monitored by reflectance spectrophotometry in isolated perfused rat hearts subjected to an acutely magnesium deficient environment. After exposure to low extracellular [Mg2+]o (i.e., 0.3 mM) for 30 min, more than 80% of the oxymyoglobin converted to its deoxygenated form. The level of reduced cytochrome oxidase aa3 also increased about 80% in low [Mg2+]o. The deoxymyoglobin was converted further to a species identified as ferrylmyoglobin by its reaction with Na2S to form ferrous sulfmyoglobin which was optically visible. This process, set into motion by acute Mg deficiency, resulted from a direct accessibility of the exogenous peroxide to the cytosolic protein. The results suggest that a pathway leading to cardiac tissue damage, induced by magnesium deficiency, is probably involved in the generation of a ferrylmyoglobin radical which could be prevented by addition of ascorbate, which is known to be a one-electron reductant of this hypervalent form of myoglobin. In further studies, we also investigated whether addition of different concentrations of ascorbic acid (AA) to the perfusate could enhance myocardial function after exposure to low [Mg2+]o perfusion. Four concentrations of AA (0.5, 1, 5, 10 mM) were tested, and the results indicate that they exert their effects in a concentration-dependent manner; 1 mM AA was the most effective dose in improving aortic output in a Mg-deficient heart. Ferrylmyoglobin formation was found to be formed considerably before intracellular release of either creatine phosphokinase or lactic dehydrogenase. These studies may have wide implications as a new mechanism by which low extracellular Mg2+ can induce myocardial injury and subsequent cardiac failure.
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PMID:Ferrylmyoglobin formation induced by acute magnesium deficiency in perfused rat heart causes cardiac failure. 828 Jul 83

The vascular endothelium plays a key role in the local regulation of vascular tone by the release of vasodilator substances (i.e. endothelium-derived relaxing factor (EDRF = nitric oxide, NO) and prostacyclin) and vasoconstrictor substances (i.e. thromboxane A2, free radicals, or endothelin). Using either agents like acetylcholine or changes in flow to stimulate the release of EDRF (NO), clinical studies have revealed the importance of EDRF in both basal and stimulated control of vascular tone in large epicardial coronary arteries and in the coronary microcirculation. The regulatory function of the endothelium is altered by cardiovascular risk factors or disorders such as hypercholesterolemia, chronic smoking, hypertension or chronic heart failure. Endothelial dysfunction appears to have detrimental functional consequences as well as adverse longterm effects, including vascular remodelling. Endothelial dysfunction is associated with impaired tissue perfusion particularly during stress and paradoxical vasoconstriction of large conduit vessels including the coronary arteries. These effects may cause or contribute to myocardial ischemia. Several mechanisms may be involved in the development of endothelial dysfunction, such as reduced synthesis and release of EDRF or enhanced inactivation of EDRF after its release from endothelial cells by radicals or oxidized low-density lipoprotein (LDL). Increased plasma levels of oxidized LDL have been noted in chronic smokers and are related to the extent endothelial dysfunction, raising the possibility that chronic smoking potentiates endothelial dysfunction by increasing circulating and tissue levels of oxidized LDL. In heart failure, cytokines and/or reduced flow (reflecting reduced shear stress) may be involved in the development of endothelial dysfunction and can be reversed by physical training. Other mechanisms include an activated renin-angiotensin system (i.e. postmyocardial infarction) with increased breakdown of bradykinin by enhanced angiotensin converting enzyme (ACE) activity. There is evidence that endogenous bradykinin is involved in coronary vasomotor control both in coronary conduit and resistance vessels. ACE inhibitors enhance endothelial function by a bradykinin-dependent mechanism and probably also by blunting the generation of superoxide anion. Endothelial dysfunction appears to be reversible by administering L-arginine, the precursor of nitric oxide, lowering cholesterol levels, physical training, antioxidants such as vitamin C, or ACE inhibition.
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PMID:Endothelial dysfunction in human disease. 1007 15

Heart failure is the leading cause of mortality in patients with transfusional iron (Fe) overload in which myocardial iron uptake ensues via a transferrin-independent process. We examined the ability of L-type Ca2+ channel modifiers to alter Fe2+ uptake by isolated rat hearts and ventricular myocytes. Perfusion of rat hearts with 100 nmol/L 59Fe2+ and 5 mmol/L ascorbate resulted in specific 59Fe2+ uptake of 20.4+/-1.9 ng of Fe per gram dry wt. Abolishing myocardial electrical excitability with 20 mmol/L KCl reduced specific 59Fe2+ uptake by 60+/-7% (P<0.01), which suggested that a component of myocardial Fe2+ uptake depends on membrane voltage. Accordingly, 59Fe2+ uptake was inhibited by 10 micromol/L nifedipine (45+/-12%, P<0.02) and 100 micromol/L Cd2+ (86+/-3%; P<0. 001) while being augmented by 100 nmol/L Bay K 8644 (61+/-18%, P<0. 01) or 100 nmol/L isoproterenol (40+/-12%, P<0.05). By contrast, uptake of 100 nmol/L ferric iron (59Fe3+) was significantly lower (1. 4+/-0.3 ng Fe per gram dry wt; P<0.001) compared with divalent iron. These data suggest that a component of Fe2+ uptake into heart occurs via the L-type Ca2+ channel in myocytes. To investigate this further, the effects of Fe2+ on cardiac myocyte L-type Ca2+ currents were measured. In the absence of Ca2+, noninactivating nitrendipine-sensitive Fe2+ currents were recorded with 15 mmol/L [Fe2+]o. Low concentrations of Fe2+ enhanced Ca2+ current amplitude and slowed inactivation rates, which was consistent with Fe2+ entry into the cell, whereas higher Fe2+ levels caused dose-dependent decreases in peak current. Fe3+ had no effect on current amplitude or decay. Combined, our data suggest that myocardial Fe2+ uptake occurs via L-type Ca2+ channels and that blockade of these channels might be useful in the treatment of patients with excessive serum iron levels.
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PMID:Modulation of iron uptake in heart by L-type Ca2+ channel modifiers: possible implications in iron overload. 1036 68

In 1998, nitric oxide (NO) was extensively explored. First studies demonstrating a beneficial effect of inhaled NO in patients with pulmonary hypertension, right ventricular dysfunction and intractable heart failure were published. It was further shown, that, in patients with essential hypertension, impaired vasodilatation can be improved by vitamin C as an antioxidant, an effect that can be reversed by NO-synthase inhibition. Unlike arotinolol, which has no antioxidat effect, carvedilol is a beta- and alpha-blocker with antioxidative properties that may prevent the development of nitrate tolerance. In clinical cardiology, the main focus is on the prevention and therapy of coronary heart disease, heart failure and hypertension: a Task force report on the prevention of coronary heart disease in clinical practice. Proceedings on anticoagulant therapy and Guidelines for antithrombotic management were published in 1998. There is an agreement that in mild hypertension the decision how to treat should be based on the estimate of cardiovascular risk and not on an arbitrary blood pressure threshold. Diuretics and betablockers should be preferred unless they are contraindicated, or there are positive indications for other drug classes. Studies also strongly suggest that therapy with relatively small doses of two different classes of drugs is the effective way to treat the majority of patients and minimize side effects. In heart failure, the evidence for the current treatment with diuretics, ACE-inhibitors and digoxin, in selected patients, is well established.
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PMID:[Cardiology 1998]. 1051 May 45

Enhanced oxidant stress involved in the pathogenesis of cardiovascular (heart failure, atherosclerosis, ischemia-reperfusion injury), neurodegenerative (M. Alzheimer), metabolic (hypercholesterolemia, diabetes) and inflammatory disorders is mimicked by non-intermittent therapy with nitrovasodilators. We used this latter therapy model to study urinary 3-nitrotyrosine (n-tyr) excretion as a potential biomarker that may reflect the enhanced generation of reactive oxygen species. Namely, free or protein-bound n-tyr is formed in the organism by nitration of tyrosine (residues) via peroxynitrite (reaction product of NO&z.ccirf; and O(2)(-)&z. ccirf;). Free n-tyr content was analyzed by gas chromatography in urine obtained from healthy human subjects under a nitrite-limited diet during a two-day non-intermittent transdermal administration of glyceroltrinitrate (GTN; 0.4 mg/h) with or without vitamin C (Vit-C; 55 microg/kg/min) as antioxidant. Concomitant with the development of complete vascular tolerance (loss of dilator action), a progressive increase in urinary n-tyr excretion (up to 186+/-9 microg/day) was demonstrated in volunteers given GTN only. In contrast, when Vit-C was added, the GTN-induced increases in urinary n-tyr content were significantly suppressed (up to 130.20+/-6.91 microg/day), whereas Vit-C alone even decreased urinary n-tyr content (down to 34.00+/-5.66 microg/day), which was below control values (56.0+/-3.4 microg/day). Thus, urinary n-tyr may serve as a biomarker to detect changes in oxidant stress and thereby to evaluate the efficacy of therapeutic interventions aimed at reducing oxidant stress under various pathophysiological conditions.
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PMID:How urine analysis reflects oxidative stress--nitrotyrosine as a potential marker. 1084 22

Heart failure is characterized by neurohumoral alterations, such as activation of the sympathetic nervous system, stimulation of the renin-angiotensin system, increased activity of the endothelin system, increased production of norepinephrine, and increased circulating levels of cytokines. Oxidative stress is associated with the formation of reactive oxygen species (ROS). The myocardium has enzymes that stimulate ROS generation and enzymes with antioxidant effects. Several studies have suggested that ROS are increased in the failing heart. ROS may contribute to the pathophysiology of heart failure by initiating myocyte apoptosis and exerting direct negatively inotropic effects through the reduction of cytosolic intracellular free calcium. However, mechanisms such as endothelial dysfunction and inflammation have also been involved in the progression of heart failure. Antioxidants (eg, vitamin C) seem to improve endothelial functionality and reduce the inflammatory response in patients with heart failure. Therefore, in this review, we analyzed the involvement of ROS in the cellular and molecular mechanisms associated with endothelial dysfunction in heart failure.
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PMID:Heart failure, redox alterations, and endothelial dysfunction. 1175 25

Inhibition of xanthine oxidase (XO) in failing hearts improves cardiac efficiency by an unknown mechanism. We hypothesized that this energetic effect is due to reduced oxidative stress and critically depends on nitric oxide synthase (NOS) activity, reflecting a balance between generation of nitric oxide (NO) and reactive oxygen species. In dogs with pacing-induced heart failure (HF), ascorbate (1000 mg) mimicked the beneficial energetic effects of allopurinol, increasing both contractility and efficiency, suggesting an antioxidant mechanism. Allopurinol had no additive effect beyond that of ascorbate. Crosstalk between XO and NOS signaling was assessed. NOS inhibition with N(G)-monomethyl-L-arginine (L-NMMA; 20 mg/kg) had no effect on basal contractility or efficiency in HF, but prevented the +26.2+/-3.5% and +66.5+/-17% enhancements of contractility and efficiency, respectively, observed with allopurinol alone. Similarly, improvements in contractility and energetics due to ascorbate were also inhibited by L-NMMA. Because of the observed NOS-XO crosstalk, we predicted that in normal hearts NOS inhibition would uncover a depression of energetics caused by XO activity. In normal conscious dogs, L-NMMA increased myocardial oxygen consumption (MVO2) while lowering left ventricular external work, reducing efficiency by 31.1+/-3.8% (P<0.005). Lowered efficiency was reversed by XO inhibition (allopurinol, 200 mg) or by ascorbate without affecting cardiac load or systemic hemodynamics. Single-cell immunofluorescence detected XO protein in cardiac myocytes that was enhanced in HF, consistent with autocrine signaling. These data show that both NOS and XO signaling systems participate in the regulation of myocardial mechanical efficiency and that upregulation of XO relative to NOS contributes to mechanoenergetic uncoupling in heart failure.
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PMID:Imbalance between xanthine oxidase and nitric oxide synthase signaling pathways underlies mechanoenergetic uncoupling in the failing heart. 1186 18


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