UMLS:C0018801 - FACTA Search

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

When rat hearts were subjected to abrupt hypoxia the onset of NADH changes as measured by epicardial fluorescence and of depressed contractility occurred at similar times. Direct measurements of changes in tissue metabolism lagged behind changes in fluorescence and contractility. Calculated NAD:NADH ratios became reduced more rapidly and to a greater extent in the cytoplasm than in the mitochondria, but did not necessarily signal greater changes in total NADH. The detection of depressed contractility before a fall in intracellular pH or a rise in intracellular lactate casts doubt on the postulate that an increase in hydrogen ion is the primary cause of hypoxic myocardial failure.
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PMID:Early changes in myocardial hypoxia: relations among mechanical function, pH, and intracellular redox states. 0 55

A 5-month-old boy died of progressive heart failure that started at the age of 3 months. Autopsy revealed a mitochondrial cardiomyopathy and a mitochondrial myopathy of the limb muscle and diaphragm. Cytochemically random defects of cytochrome c oxidase were visualized by light and electron microscopy in the diaphragm and especially the heart muscle, the limb muscle showing a diffuse attenuation whereas the liver and kidneys reacted normally. The activities of NADH-dehydrogenase (complex I) and cytochrome c oxidase (complex IV) were severely diminished (20% residual activity of controls) in the skeletal and heart muscle. In the heart, succinate cytochrome c reductase (complex II/III) was additionally decreased to the same degree. Loss of cytochrome c oxidase activity was based on a reduction of both mitochondrial and nuclear derived subunits in the heart and diaphragm as revealed by immunohistochemical analysis, whereas the limb muscle showed a normal immunoreactive protein content. The results illustrate heterogeneous tissue expression of respiratory chain enzyme defects and demonstrate that a cardiomyopathy may be the leading presentation of a mitochondrial disorder in early infancy.
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PMID:Fatal infantile mitochondrial cardiomyopathy and myopathy with heterogeneous tissue expression of combined respiratory chain deficiencies. 165 34

Glycolysis is slow in the heart, especially in the cardiomyopathic heart. Glycolysis is partially rate-limited by phosphofructokinase (PFK), an enzyme which is inhibited by calcium (Ca2+)i and hydrogen ions (H+)i and activated by cAMP. (H+)i and (Ca2+)i are augmented in cardiomyopathy. With glucose as the only substrate (NADH)/(NAD) the phosphorylation potential and developed pressure were significantly lower, and concentrations of phosphomonoester sugars and hydrogen ions (H+)i were significantly higher in isolated cardiomyopathic hearts as compared to healthy hamster hearts. Pyruvate lowered diastolic (Ca2+)i in cardiomyopathic hamster hearts. With pyruvate as the substrate (NADH)/(NAD), the phosphorylation potential and developed pressure increased significantly and concentrations of phosphomonoester sugars (PME), (H+)i and diastolic (Ca2+)i decreased significantly in myopathic hamster hearts. The results suggest that late heart failure in the myopathic hamster is associated with calcium and/or hydrogen ion-induced inhibition of glycolysis.
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PMID:Glycolysis in heart failure: a 31P-NMR and surface fluorometry study. 224 66

New method for measuring plasma and urinary Na-K-ATPase inhibitor (ATPI) was developed. Plasma and urine were extracted with reversed phase cartridge column and sample was reconstituted by assay buffer. Na-K-ATPase inhibitory activity of sample was monitored by continuously recording the absorbance of NADH at 340 nm, which coupled to the dephosphorylation of ATP. Ouabain was used for standards of Na-K-ATPase inhibition and this standard showed good linearity ranged 5-100 nmol/ml. Using this new method, P-ATPI and U-ATPI were quantitatively evaluated and paradoxical Na-K-ATPase stimulating phenomenon which observed in conventional method (Hamlyn et al) was diminished. Adopting of this new method for measuring plasma(P-) and urinary(U-)ATPI, and radioimmunoassay for P- and U-digitalis-like substance(DLS)--using crossreactivity to anti digoxin antibody--, these substances were estimated in patients with essential hypertension (EHT), chronic heart failure(CHF), primary and idiopathic hyperaldosteronism(HA), hyperthyroidism(BA) and chronic renal failure(CRF). In EHT, U-DLS, P-DLS, U-ATPI, P-ATPI were significantly higher than those of control(C). In CHF and BA, U-DLS and -ATPI were also significantly higher than those of C. In HA, U-ATPI, DLS distributed in wide range, and a few patients showed high levels of U-DLS and -ATPI. In CRF, P-DLS and -ATPI levels were significantly higher than those of C in prehemodialytic state but P-ATPI was significantly decreased after hemodialysis. From these results it is suggested that 1) DLS and ATPI might contribute to the etiology of hypertension. 2) Volume expansion stimulates the secretion of DLS and ATPI. 3) Stimulatory effect of volume expansion and inhibitory effect of mineralocorticoid may be responsible for wide distribution of these factors in HA. 4) DLS and ATPI are not the same substances.
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PMID:[Endogenous digitalis-like substance and Na-K-ATPase inhibitor in cardiovascular and renal disease]. 283 14

In order to determine the status of the energy production system of the heart during cardiac failure of sheep with gousiekte, observations were made of the heart tissue levels of adenosine triphosphate (ATP), creatine phosphate (CrP), inorganic phosphate, reduced nicotine adenine dinucleotide (NADH) and lactate. Some measurements on oxidative phosphorylation were also made. A significant decrease in ATP and CrP levels coincided with a simultaneous rise in the ATP:CrP ratio and lactate levels in gousiekte hearts. No significant deviations in inorganic phosphate and NADH levels could be demonstrated. These abnormalities were accompanied by a decreased uptake of oxygen by isolated mitochondria of gousiekte hearts. There was a marked increase in the anaerobic state of the hearts of dying gousiekte sheep, while the values of NADH and the ATP:CrP ratio at a presymptomatic stage indicated a possible early derangement in the energy metabolism of sheep fed the toxic material. No hypertrophy could be detected for the failing ventricles of gousiekte sheep after being corrected for a significant amount of oedema found in the heart tissue of these animals. It was concluded that the depressed ATP and CrP levels in the heart tissue of gousiekte sheep during cardiac failure could at least in part, be attributed to a depressed aerobic energy production. It is not possible, however, to state whether this is a primary or a secondary response due to intoxication and also whether it could be seen as a cause or effect of cardiac failure.
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PMID:A study on the function of some subcellular systems of the sheep myocardium during gousiekte. I. The energy production system. 718 37

Calcium (Ca) agonists like Bay k 8644 ((-)-S-1,4-dihydro-2,6-dimethyl-3-nitro-4-(2-trifluoromethylphenyl) pyridine-5-carboxylate (CAS 93468-89-4), may represent a new principle in the treatment of heart failure. Because of marked vasoconstrictive properties, these agents may have a deleterious effect on myocardial ischemia (MI). It was however demonstrated that contractility enhancement and coronary flow (CF) reduction do not automatically enlarge MI. Therefore, we investigated the influence of Bay k 8644 (10(-8) mol/l) in comparison to ouabain (1.5 x 10(-7) mol/l) in non-arrhythmogenic concentrations on MI in electrically paced isolated rabbit hearts (Langendorff, constant pressure: 70 cm H2O, Tyrode solution, Ca2+ 1.8 mmol/l, 180 beats/min). MI was induced by coronary artery ligation and quantified by epicardial NADH-fluorescence. Left ventricular pressure (LVP) was significantly increased by ouabain (+10-20%) but slightly diminished by Bay k 8644 (-10%) (p < 0.05). CF reduction after Bay k 8644 (-30%) was more pronounced than after ouabain (-10%) (p < 0.05), but both substances did reduce relative CF (CF/LVP x heart rate) to the same extent (-20-30%) (p > 0.05). Nevertheless, ouabain did not significantly influence epicardial NADH-fluorescence area or intensity (p > 0.05), whereas MI was significantly enlarged by Bay k 8644 (+30%) (p < 0.05). It is concluded that in isolated rabbit hearts ouabain and Bay k 8644 might influence CF-distribution differently with a more pronounced diminuation of the nutritive CF induced by Bay k 8644.
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PMID:Influence of dihydropyridine-type calcium agonists on hemodynamics and myocardial ischemia in isolated rabbit hearts. 750 84

The aim of the present study was to elucidate the role of mitochondria in the development of heart failure following ischemia/reperfusion. Although mitochondria were increasingly assumed to be responsible for the establishment of an oxidative stress situation the lack of suitable methods to prove it required new concepts for an evaluation of the validity of this hypothesis. The principal idea was to expose isolated mitochondria to metabolic conditions which are developed during ischemia/reperfusion in the cell (anoxia, lactogenesis) and study how they respond. Heart mitochondria treated in that way responded with an incomplete collapse of the transmembraneous proton gradient, thereby impairing respiration-linked ATP generation. The membrane effect affected also the proper control of e- transfer through redox-cycling ubisemiquinone. Electrons were found to leak at this site from its normal pathway to O2 suggesting that ubisemiquinone becomes an active O2.- generator. It was concluded from these observations that mitochondria are likely to play a pathogenetic role in the reperfusion injury of the heart both, by an impairment of energy conservation and their transition to a potent O2.(-)-radical generator. Furthermore, there is considerable evidence that the exogenous NADH-dehydrogenase of heart mitochondria is mainly responsible for functional changes of these organelles during ischemia/reperfusion.
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PMID:Ischemia/reperfusion impairs mitochondrial energy conservation and triggers O2.- release as a byproduct of respiration. 831 23

To better characterize the role of skeletal muscle in chronic heart failure we studied energetic charge, metabolites and enzyme activity in the energy production pathway. We selected 15 males with severe chronic heart failure (NYHA class III, stable clinical conditions and in normal nutritional status) and seven controls. Controls and patients were submitted to biopsy of the vastus lateralis muscle in resting and fasting conditions. Hormone profiles were also evaluated. Our results showed near normal ATP, ADP and AMP concentrations, but there were substantially more reductions in glycogen (46 +/- 5 vs 77 +/- 6 mumoles glycosidic units.g-1 fresh tissue) and creatine phosphate (5 +/- 1 vs 13 +/- 1 mumoles.g-1 fresh tissue) in patients than in controls. We also found a reduction in glycolytic activity (pyruvate kinase 1009 +/- 79 vs 1625 +/- 26 nmoles. min-1.mg protein-1), despite normal tricarboxylic acid cycle velocity, an increase in alanine amino-transferase (964 +/- 79 vs 425 +/- 34 nmoles. min-1.mg protein-1) and in aspartate aminotransferase (515 +/- 44 vs 291 +/- 56 nmoles.min-1.mg protein-1). An increase was also observed in total NADH cytochrome c reductase (128 +/- 14 vs 68 +/- 5 nmoles.min-1.mg protein-1), while cytochrome oxidase activity was normal. The cortisol/insulin ratio was slightly elevated (77 +/- 4 vs 32 +/- 12). In conclusion, normonutritive patients with severe heart failure show an imbalance in the energy production/utilization ratio. The impairment is probably due both to a decrease in production and an increase in consumption of energy owing to greater cellular workload and/or a hypercatabolic state.
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PMID:Biochemical analysis of muscle biopsy in overnight fasting patients with severe chronic heart failure. 892 17

We studied peripheral skeletal muscle metabolism in monocrotaline-treated rats. Two distinct groups emerged: a percentage of the animals developed ventricular hypertrophy, with no signs of heart failure (compensated group), whilst others, besides ventricular hypertrophy, developed the syndrome of congestive heart failure (CFH group). Oxidative metabolism and redox cellular state were expressed in terms of creatine phosphate, purine (ATP, ADP and AMP) and pyridine (NAD and NADH) nucleotides tissue content. Skeletal muscles with different metabolism were studied: (a) Soleus (oxidative), (b) extensor digitorium longus (glycolytic) and tibialis anterior (oxidative and glycolytic). The results showed that in CFH animals a decreased high-energy phosphates content occurs in the soleus and extensor digitorum longus, but not in the tibialis anterior. In the soleus. ATP declined from 20.31 +/- 2.5 of control group to 9.55 +/- 0.61 mumol/g dry wt. while in the extensor digitorum longus ATP declined from 30.92 +/- 2.68 to 22.7 +/- 1.54 mumol/g dry wt. In both these muscles, a shift of NAD/NADH couple towards oxidation was also observed (from 26.58 +/- 3.34 to 6.95 +/- 0.97 and from 18.88 +/- 3.43 to 10.57 +/- 1.61, respectively). These alterations were more evident in the aerobic soleus muscle. On the contrary, no major changes occurred in skeletal muscle metabolism of compensated animals. The results show that: (1) a decrease in muscle high-energy phosphates occurs in CFH; (2) this is accompanied by a decrease of NAD/NADH couple suggesting an impairment in oxygen utilization or availability.
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PMID:Skeletal muscle metabolism in experimental heart failure. 893 80

RXRalpha null mutant mice display ocular and cardiac malformations, liver developmental delay, and die from cardiac failure around embryonic day (E) 14.5 pc. To dissect the molecular basis of the RXRalpha-associated cardiomyopathy, we performed subtractive hybridization and systematically characterized putative downstream target genes that were selectively lacking in the mutant embryos, both at early (E10.5) and late (E13.5) stages of mouse embryonic development. Approximately 50% of the subtracted clones (61/115) encoded proteins involved in intermediary metabolism and electron transport, suggesting an energy deficiency in the RXRalpha-/- embryos. In particular, clone G1, which encodes subunit 14.5b of the NADH-ubiquinone dehydrogenase complex, displayed a dose-dependent expression in the wild-type, heterozygous and RXRalpha mutant mice. This gene was also downregulated in a retinoid-deficient rat embryo model. ATP content and medium Acyl-CoA dehydrogenase mRNA were lower in RXRalpha mutant hearts compared to wild-type mice. Ultrastructural studies showed that the density of mitochondria per myocyte was higher in the RXRalpha mutant compared to wild-type littermates. We propose a model whereby defects in intermediary metabolism may be a causative factor of the RXRalpha-/- phenotype and resembles an embryonic form of dilated cardiomyopathy.
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PMID:Energy deprivation and a deficiency in downstream metabolic target genes during the onset of embryonic heart failure in RXRalpha-/- embryos. 942 47

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