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)

Patients with heart failure frequently report leg fatigue during exercise. At present, however, there is no objective method of detecting leg muscle abnormalities in such patients. To determine if phosphorus-31 nuclear magnetic resonance spectroscopy can provide such information, this technique was used to compare calf responses to stair climbing and plantarflexion in 20 patients with heart failure (peak oxygen consumption (VO2) of 13.6 +/- 5 ml/kg/min, ejection fraction 20 +/- 5%) and 9 age-matched normal subjects. Work was quantified by measuring VO2. At rest, both groups exhibited similar inorganic phosphorus to phosphocreatine (Pi/PCr) ratios (patients with heart failure 0.21 +/- 0.07, normal subjects 0.21 +/- 0.06, difference not significant) and pH levels (patients with heart failure 7.06 +/- 0.17, normal subjects 7.05 +/- 0.11, difference not significant). In both normal subjects and patients with heart failure, exercise resulted in a progressive rise in Pi/PCr as VO2 increased. However, examination of the relation of VO2 versus Pi/PCr revealed steeper slopes in patients with heart failure during both stair climbing and plantar-flexion. Neither form of exercise decreased calf pH in normal subjects. In the patients with heart failure, significant decreases in pH were noted during the highest work level of plantarflexion (pH of heart failure patients 6.86 +/- 0.20, pH of normal subjects 7.07 +/- 0.14, p less than 0.01). Metabolic recovery time was also prolonged in the patients with heart failure versus normal subjects (3.3 +/- 0.8 vs 2.1 +/- 0.5 minutes, respectively, p less than 0.002). These findings indicate that phosphorus-31 nuclear magnetic resonance provides objective evidence of leg muscle abnormalities in patients with heart failure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Detection of abnormal calf muscle metabolism in patients with heart failure using phosphorus-31 nuclear magnetic resonance. 319 84

This paper discusses the possible pathogenesis of the cerebral atrophy (CA) observed in a large percentage of uraemic patients, taking the form of prevalently cortical damage (cortical atrophy) and/or subcortical enlargement of ventricular cavities (subcortical atrophy). This central nervous system pathology seems to share very little either with the better known 'dialysis encephalopathy' or with the 'acute encephalopathy syndrome', even though sporadic cases of both these forms have shown concomitant CA. Histopathologically it offers the picture of loss of neurons and nerve fibres and can thus be compared with uraemic peripheral nervous system damage. CA is unquestionably important because of its implications in terms of impairment of superior cortical functions, just as in CA of non-uraemic aetiology. A first aetiopathogenic hypothesis might include endogenous uraemic intoxication to the nerve tissue, believed responsible for peripheral uraemic neuropathy, but other possibilities merit consideration: vascular calcification secondary to hyperparathyroidism, blood lipid disorders, and systemic hypertension--factors that contribute to impairing the brain vasculature, with cascade effects on brain tissue oxygenation, neuronal metabolism, and energy exchanges. Tissue oxygenation is already jeopardized in the uraemic patient by the concomitant chronic anaemia and by cardiac insufficiency in cases with hypertensive heart disease. In dialysis patients with volume-dependent hypertension the brain may be further damaged by abrupt pressure changes produced by dialytic ultrafiltration; these constitute a severe challenge to cerebral blood flow autoregulation. Cyclic variations of brain tissue hydration connected with regular dialysis treatment may have adverse effects on neurotransmitter functions, particularly those mediated by neuropeptidergic systems. Chronic intoxication may result from oral Al(OH)3 of phosphorus-chelating agents: in animal studies and clinical observations in non-uraemic populations the neurotoxic potential of Al is indicated by a significant correlation between histological neuronal damage, impaired function, and Al concentration in brain tissues. In addition, a concausal role of malnutrition in central nervous system damage in the uraemic patient cannot be overlooked, since malnutrition is known to give rise to functional and structural alterations in non-uraemic human pathology. In the light of these clinical observations and experimental findings, it would appear that the prevention of CA in uraemia is today feasible.
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PMID:Pathogenesis of cerebral atrophy in uraemia. State of the art. 328 91

Blood flow to working skeletal muscle is frequently reduced in patients with heart failure or peripheral vascular disease. To determine if phosphorus nuclear magnetic resonance (NMR) can noninvasively detect such muscle underperfusion, gated phosphorus-31 NMR spectroscopy was used to compare muscle inorganic phosphate, phosphocreatine and pH during mild wrist flexion exercise at 0.2, 0.4 and 0.6 W in eight normal men, before and after reduction of forearm blood flow. Forearm flow was reduced by cuff inflation to a pressure determined by Doppler ultrasound to bring flow to 40 to 60% of control. Attention was focused on the inorganic phosphate to phosphocreatine (Pi/PCr) ratio and pH, two variables potentially sensitive to muscle oxygen delivery. At rest with normal flow, Pi/PCr averaged 0.12 +/- 0.03 and pH averaged 7.02 +/- 0.04. Exercise produced a progressive increase in Pi/PCr (0.2 W = 0.43 +/- 0.12; 0.4 W = 0.75 +/- 0.31; 0.6 W = 1.04 +/- 0.47) and a modest decrease in pH (0.2 W = 6.94 +/- 0.04; 0.4 W = 6.86 +/- 0.18; 0.6 W = 6.85 +/- 0.06). Flow reduction had no effect on Pi/PCr or pH at rest. In contrast, flow reduction during exercise was associated with higher Pi/PCr at all three work loads (0.2 W = 0.60 +/- 0.27; 0.4 W = 0.99 +/- 0.50; 0.6 W = 2.00 +/- 1.26 [all p less than 0.05 versus normal flow]) and lower pH (0.2 W = 6.78 +/- 0.12; 0.4 W = 6.69 +/- 0.23; 0.6 W = 6.65 +/- 0.30 [p less than 0.01 versus normal flow at 0.2 and 0.4 W; p = 0.05 at 0.6 W]).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Detection of skeletal muscle hypoperfusion during exercise using phosphorus-31 nuclear magnetic resonance spectroscopy. 395 35

The hypothesis that poisoning by phosphines, arsines and stibines might be the primary cause of sudden infant death syndrome (SIDS) was investigated. Most mattress materials contain phosphorus or antimony compounds as fire retardant additives. Mattress materials in areas affected by the warmth and perspiration of the sleeping infant were found to be naturally infected by the fungus Scopulariopsis brevicaulis which is thought to be capable of generating phosphines, arsines and stibines from materials containing phosphorus, arsenic or antimony compounds. These gases may cause anticholinesterase poisoning and cardiac failure in infants, but contributory factors include the prone sleeping position and overwrapping. In England and Wales, the progressive increase in SIDS between 1951 and 1988 seems to be related to increasing use of phosphorus and antimony compounds as fire retardents in cot mattresses.
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PMID:Sudden infant death syndrome: a possible primary cause. 752 75

Several studies of phosphorus 31 (31P) magnetic resonance spectroscopy (MRS) have demonstrated the presence of skeletal muscle metabolic abnormalities during exercise in patients with chronic heart failure (CHF). We studied the contribution of these abnormalities to the limitation of exercise capacity in CHF. In 25 patients (age 57 +/- 2 years, left ventricular ejection fraction [LVEF] 28% +/- 1.6%, peak oxygen consumption (VO2) 16 +/- 1.2 ml/kg/mm) (mean +/- SEM), we studied the calf muscle at rest and during plantar flexion with 31P MRS. The phosphocreatine (PCr) depletion rate was significantly negatively correlated to peak VO2 (r = -0.62, p = 0.001) but not to LVEF. Muscle pH was correlated with the inorganic phosphorus (Pi)/PCr ratio (r = -0.69, p = 0.0001) and with the PCr/adenosine triphosphate beta (ATP beta) ratio (which negatively relates to adenosine diphosphate [ADP] concentration) (r = 0.65, p = 0.00001). Although muscle ATP (ATP/sum of phosphorus [sigma P] remained stable, in 8 patients ATP/sigma P decreased significantly (-15% +/- 4%, p = 0.0002). In this ATP-depleted group, peak VO2 was significantly lower than that of the nondepleted group and PCr depletion more rapid, whereas LVEF did not differ. Skeletal muscle metabolic abnormalities in CHF contribute markedly to the alteration of exercise capacity. Rapid PCr depletion and muscle acidosis are the most relevant abnormalities. ATP depletion and excessive increase in ADP during exercise may contribute further to exercise limitation specifically in patients with more marked CHF.
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PMID:Contribution of specific skeletal muscle metabolic abnormalities to limitation of exercise capacity in patients with chronic heart failure: a phosphorus 31 nuclear magnetic resonance study. 794 49

NMR spectroscopy is a powerful and non-invasive technique with which to study cardiac energy metabolism in vivo. This method makes use of the "spin" properties of certain atomic nuclei. The naturally occurring phosphorus nucleus (P-31) is visible by NMR and phosphorus-31 NMR spectra contain signals from the major components of energy metabolism. In vivo, the phosphocreatine to ATP ratio (PCr/ATP) is used as an index of the energy status and viability of the myocardium. However, it is the response of this metabolic index to differing physiological and pharmacological stresses that has helped to elucidate the mechanisms that regulate cellular respiration and to highlight abnormalities in heart failure. As there are many technical difficulties involved with cardiac NMR, 31-phosphorus studies of skeletal muscle have provided an indirect way of studying abnormalities in myocardial metabolism in vivo. One of the unique features of NMR is that it permits in vivo measurements of fluxes through key enzymes in energy metabolism using magnetization transfer. Determination of the rates of energy transfer through the creatine kinase reaction and energy turnover in vivo will provide new insights into the control of energy metabolism in health and disease. Alternatively, carbon-13 NMR can be used to measure fluxes through the different metabolic pathways of synthesis and catabolism following administration of selectively labelled carbon-13 substrates. In conclusion, the non-invasive and versatile nature of NMR spectroscopy makes it an ideal method to assess and evaluate energy metabolism in vivo.
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PMID:Evaluation of myocardial energy status in vivo by NMR spectroscopy. 811 45

Noninvasive measurements of high-energy phosphate metabolism in the anterior myocardium of heart patients are now possible with image-guided, localized nuclear magnetic resonance (MR) spectroscopy. The results, reviewed herein, are largely consistent with those of prior animal studies. Quantification with phosphorus-31 MR yields normal phosphocreatine (PCr) and adenosine triphosphate (ATP) concentrations of about 11 and 6 mumol per gram wet weight, respectively, with a PCr/ATP ratio of around 1.8. Studies of patients with hypertrophic and dilated cardiomyopathy, left ventricular hypertrophy, valve disease, transplanted hearts, myocardial infarction, or reversible ischemia reveal abnormalities in the PCr/ATP ratio and/or the metabolite concentrations. Differences in reported findings for cardiomyopathies might be attributable to statistical sensitivity and the presence of heart failure. The technique might find use in the clinic for identifying failure when other factors complicate diagnosis. The PCr/ATP ratio is often reduced in transplanted hearts but is not a reliable predictor of histologic rejection involving myocyte necrosis. In myocardial infarction, metabolite levels may be reduced while the remaining PCr and ATP signals likely reflect surrounding surviving tissue. Stress-test studies of anterior myocardial ischemia produce transient reductions in the PCr/ATP ratio, which appear to be specific for ischemic disease. This may lead to a new way of assessing ischemia, particularly if the technology can gain access to a larger portion of the heart. Cardiac spectroscopy with nuclei other than P-31 shows promise.
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PMID:MR spectroscopy of the human heart: the status and the challenges. 818 33

The effects of toborinone (OPC-18790) and milrinone on cardiac function and energetics were compared in microembolized guinea pig hearts. Male guinea pig hearts were perfused according to the Langendorff method and microembolization was induced by injecting microspheres. The hearts were then treated with toborinone (10 microM), milrinone (4 microM), and vehicle. Energy metabolism in hearts was assessed by 31-phosphorus magnetic resonance spectroscopy (31P-MRS). Microembolization produced a decrease in coronary perfusion flow (CPF), left ventricular developed pressure (LVP), and peak LVdP/dt by about 50% concomitantly with a decrease in creatine phosphate (PCr) and ATP and an increase in inorganic phosphate (Pi) and Pi/PCr ratio. Toborinone and milrinone increased peak LVdP/dt, an index of contractility, by 15 +/- 2% and 18 +/- 3%, respectively. Milrinone increased heart rate (HR) by 22 +/- 4% but toborinone did not change HR. Toborinone did not change PCr, ATP, Pi, Pi/PCr, and intracellular pH (pHi) compared with the vehicle. On the other hand, milrinone decreased PCr and increased Pi and Pi/PCr compared with toborinone or vehicle. These results suggest that the different effects between toborinone and milrinone on energy metabolism in microembolized hearts may be due to the difference of chronotropic action between these drugs. Thus toborinone, a positive inotropic agent without chronotropic action, may be effective in acute treatment of ischemic heart failure.
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PMID:Comparative study of toborinone (OPC-18790) and milrinone on energy metabolism in microembolized guinea pig hearts. 940 58

In recent years, investigations into cardiac rehabilitation have suggested that bicycle exercise training increases peak oxygen uptake of patients with chronic heart failure(CHF). However, some patients can not perform such exercise because of poor cardiac function. If patients were able to achieve metabolic improvement in their muscles by localized small muscle group training, it would be advantageous for these patients. Therefore, in patients with CHF, we investigated whether localized skeletal muscle training improved calf muscle metabolism. Seven patients undertook a random order crossover trial. Training consisted of unilateral calf plantar flexion exercise. After training, phosphorus-31 nuclear magnetic resonance spectroscopy revealed significant improvements in calf muscle metabolism in patients with CHF. Subjective fatigue score was also improved. In this paper, stress testing in cardiology and cardiac rehabilitation including the above experimental data were introduced.
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PMID:[Stress testing in cardiology and cardiac rehabilitation]. 1080 13

A case of fatal suicidal bentazon poisoning is presented along with a description of the different analytical methods involved. A 56-year-old farmer was examined by the family doctor 1 h after voluntarily ingesting 500 mL of FIGHTER (bentazon, 480 g/L water). He presented a Glasgow score of 15, polypnea, diarrhea, and vomiting. During transport by ambulance to the hospital, he tossed, sweated, and suddenly presented breathing difficulty followed by heart failure. Tracheal intubation was impossible (H1.5) despite use of different diameter cannulas because of extreme general muscle rigidity. All attempts at resuscitation failed, and the patient died within 2 h postingestion. Blood and urine samples were taken just before death. General basic and neutral drug screening by high-performance liquid chromatography-diode-array detection and gas chromatography-nitrogen-phosphorus detection showed no strychnine or other drugs or toxics except for citalopram (< 0.1 mg/L) and bentazon, but this weak acidic molecule (pKa3.3) was badly extracted in alkaline conditions. Plasma and urine levels, measured after acidic extraction, protein precipitation, or simple dilution, were 1500 and 1000 mg/L, respectively. Bentazon (M.W. 240) was confirmed by its basic mass spectrum (ESI-, m/z 239, 197, 175, 132) or by that of methylated derivative (El+, m/z 254, 212, 175). An hydroxylated metabolite (ESI-, m/z 255, 213, 191, 148; El+, m/z 284, 242, 163) and the N1-glucuronide conjugate of bentazon (ESI-, m/z 415, 239) were also detected in urine. (Quantitation ions are underlined.) This first case of bentazon poisoning with available analytical data revealed the high toxicity of this compound after large dose ingestion with early and heavy symptoms such as muscle rigidity probably related to muscular toxicity. Comparison with another nonfatal case and with toxicological data on animals is discussed.
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PMID:Fatal acute poisoning by bentazon. 1267 7


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