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 47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fatigue and recovery from fatigue were related to metabolism in single fibers of the frog semitendinosus muscle. The fibers were held at a sarcomere length of 2.3 microm in oxygenated Ringer solution at 15 degrees C and were stimulated for up to 150 s by a schedule of 10-s, 20-Hz tetanic trains that were interrupted by 1-s rest periods, after which they were rapidly frozen for biochemical analysis. Two kinds of fatigue were produced in relation to stimulus duration. A rapidly reversed fatigue occurred with stimulation for under 40 s and was evidenced by a decline in tetanic tension that could be overcome by 1 s of rest. A prolonged fatigue was caused by stimulation for 100-150 s. It was evidenced during stimulation by a fall in tetanic tension that could not be overcome by 1 s of rest, and after stimulation by a reduction, lasting for up to 82 min, in the peak tension of a 200-ms test tetanus. Fiber phosphocreatine (PCr) fell logarithmically in relation to stimulus duration, from a mean of 121 +/- 8 nmol/mg protein (SEM, n = 12) to 10% of this value after 150 s of stimulation. PCr returned to normal levels after 90-120 min of rest. Stimulation for 150 s did not significantly affect fiber glycogen and reduced fiber ATP by at most 15%. It is suggested that the prolonged fatigue caused by 100-150 s of tetanic stimulation was caused by long-lasting failure of excitation-contraction coupling, as it was not accompanied by depletion of energy stores in the form of ATP. One possibility is that H+ accumulated in fatigued fibers so as to interfere with the action of Ca2+ in the coupling process.
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PMID:Metabolic correlates of fatigue and of recovery from fatigue in single frog muscle fibers. 31 Aug 67

Hypotension may be expected to produce less perturbation of metabolism in the brain when cerebral metabolic rate is lowered by deep anesthesia. Male Wistar rats having unilateral carotidartery ligation were exposed to mean arterial pressure (MAP) of 40 torr for 22 min by an intravenous infusion of trimethaphan during anesthesia with halothane, 0.6 or 2 per cent, in oxygen. Cortical tissue metabolite levels on the side of the ligated carotid artery were more abnormal in rats receiving halothane, 0.6 per cent, than in those receiving halothane, 2 per cent. Values at halothane, 0.6 per cent, were adenosine triphosphate (ATP), 1.71 +/- 0.05 (+/-SEM) mumol/g, phosphocreatine (PCr) 1.97 +/- 0.07 mumol/g. and lactate 16.5 +/- 5.1 mumol/g; corresponding values at halothane, 2 per cent, were ATP 2.27 +/- 0.02, PCr 4.02 +/- 0.23, and lactate 4.75 +/- 0.9 mumol/g. ATP and PCr values were significiantly lower (P less than 0.05) and the lactate value was significantly higher with halothane, 0.6 per cent, than with halothane 2 per cent. Cerebral oxygen consumption decreased 47 per cent in rats anesthetized with halothane, 2 per cent. Preservation of cortical metabolite levels in deeply anesthetized animals suggests a protective effect of cerebral metabolic depression.
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PMID:Cerebral energy levels during trimethaphan-induced hypotension in the rat: effects of light versus deep halothane anesthesia. 76 Jun 1

1. An analysis of the recovery kinetics of intracellular pH and phosphocreatine concentration after exercise in skeletal muscle was developed to calculate the rate of proton efflux in vivo. 2. Recovery of rat leg muscle pH after sciatic nerve stimulation was faster in spontaneously hypertensive rats than in Wistar-Kyoto controls (both n = 5). 3. Analysis of these data showed that the rate of proton efflux depends on intracellular pH, being greater at lower pH. 4. The early rate of proton efflux was greater in spontaneously hypertensive rats [measured over the first 0.8 min, 12.5 mmol min-1 kg-1 (SEM 1.8) in spontaneously hypertensive rats compared with 7.6 mmol min-1 kg-1 (SEM 0.4) in Wistar-Kyoto rats, P less than 0.05], even though pH at the start of recovery was higher [6.30 (SEM 0.03) in spontaneously hypertensive rats compared with 6.17 (SEM 0.01) in Wistar-Kyoto rats, P less than 0.01]. 5. This novel analysis provides a quantitative estimate of the rate of proton efflux in vivo, and demonstrates directly that this is increased in spontaneously hypertensive rats, as has previously been inferred from pH changes during exercise and studies of cultured muscle cells in vitro.
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PMID:Proton efflux from rat skeletal muscle in vivo: changes in hypertension. 131 57

To clarify the origin of local cold adaptation and to define precisely its influence on muscle bio-energetics during local exercise, five subjects were subjected to repeated 5 degrees C cold water immersion of the right hand and forearm. The first aim of our investigation was therefore carried out by measuring local skin temperatures and peripheral blood flow during a cold hand test (5 degrees C, 5 min) followed by a 10-min recovery period. The 31P by nuclear magnetic resonance (31PNMR) muscle bio-energetic changes, indicating possible heat production changes, were measured during the recovery period. The second aim of our investigation was carried out by measuring 31PNMR muscle bioenergetics during handgrip exercise (10% of the maximal voluntary contraction for 5 min followed by a 10-min recovery period) performed both at a comfortable ambient temperature (22 degrees C; E) and after a cold hand test (EC), before and after local cold adaptation. Local cold adaptation, confirmed by warmer skin temperatures of the extremities (+30%, P less than 0.05), was related more to an increased peripheral blood flow, as shown by the smaller decrease in systolic peak [-245 (SEM 30) Hz vs -382 (SEM 95) Hz, P less than 0.05] than to a change in local heat production, because muscle bioenergetics did not vary. Acute local cold immersion decreased the inorganic phosphate:phosphocreatine (PC) ratio during EC compared to E [+0.006 (SEM 0.010) vs +0.078 (SEM 0.002) before acclimation and +0.029 (SEM 0.002) vs +0.090 (SEM 0.002) after acclimation respectively, P less than 0.05] without significant change in the PC:beta-adenosine triphosphate ratio and pH. Local adaptation did not modify these results statistically. The recovery of PC during E increased after acclimation [9.0 (SEM 0.2) min vs 3.0 (SEM 0.4) min, P less than 0.05]. These results suggested that local cold adaptation is related more to peripheral blood flow changes than to increased metabolic heat production in the muscle.
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PMID:Blood flow and muscle bio-energetics by 31P-nuclear magnetic resonance after local cold acclimation. 155 58

1. 31P nuclear magnetic resonance spectroscopy and the hyperinsulinaemic-euglycaemic clamp were used simultaneously to assess the effect of insulin on intracellular pH and the major phosphorus-containing metabolites of normal human skeletal muscle in vivo in four normal subjects. 2. Insulin and glucose were infused for 120 min. Plasma insulin increased approximately 10-fold over preclamp levels (5.6 +/- 0.9 m-units/l pre-clamp and 54 +/- 5 m-units/l over the last hour of infusion; mean +/- SEM, n = 4). Plasma glucose concentration did not change significantly (5.4 +/- 0.2 mmol/l pre-clamp and 5.5 +/- 0.1 mmol/l over the last hour of infusion). 3. Insulin and glucose infusion resulted in a decline in the intracellular pH of forearm muscle of 0.027 +/- 0.007 unit/h (P less than 0.01), whereas in control studies of the same subjects, pH rose by 0.046 +/- 0.005 unit/h (P less than 0.001). 4. In the clamp studies, intracellular inorganic phosphate concentration rose by 18%/h, whereas ATP, phosphocreatine and phosphomonoester concentrations did not change. In plasma, inorganic phosphate concentration was 1.16 +/- 0.05 mmol/l before infusion, and this decreased by a mean rate of 0.14 mmol h-1 l-1. No change was observed in any of these intracellular metabolites in the control studies. 5. The results show that, under physiological conditions, insulin does not raise intracellular pH in human muscle, and thus cannot influence muscle metabolism by this mechanism. The results also suggest that insulin causes a primary increase in the next flux of inorganic phosphate across the muscle cell membrane.
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PMID:Effect of insulin on intracellular pH and phosphate metabolism in human skeletal muscle in vivo. 164 19

To elucidate the mechanism of acute contractile failure induced by adriamycin, the intracellular concentrations of free calcium ([Ca2+]i) and energy-related phosphate compounds were determined in isolated ferret hearts. The time-averaged [Ca2+]i was measured at 10 min resolution using fluorine nuclear magnetic resonance (NMR) spectroscopy and the NMR-sensitive Ca2+ indicator 5F-BAPTA. [Ca2+]i significantly increased from a control of 381 +/- 66 nM (mean +/- SEM, N = 5) to 789 +/- 171 nM during 30 min of perfusion with adriamycin (30 mg/L), and remained elevated for at least 30 min after washout. The isovolumic LV pressure decreased to 80.7 +/- 8.9% of control (N = 12, p less than 0.05) and did not recover after washout. Intramyocardial contents of energy-related phosphates were determined by phosphorus NMR spectroscopy in seven other hearts. No significant change in myocardial energy metabolism was observed during adriamycin exposure and after washout; inorganic phosphate did not increase, and phosphocreatine and ATP did not decrease. These results indicate that Ca overload induced by adriamycin is associated with acute contractile failure. Adriamycin has been reported to inhibit Na-Ca exchange and to affect the gating of Ca2+ release channels in sarcoplasmic reticulum. Whatever the cause of the calcium overload, the fact that dysfunction persists as an aftereffect of adriamycin is consistent with the hypothesis that calcium overload, in the absence of ischemia, can leave behind long-lasting contractile dysfunction.
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PMID:Alterations of intracellular calcium homeostasis and myocardial energetics in acute adriamycin-induced heart failure. 172 Aug 44

The acute effects of doxorubicin on coronary perfusion and left ventricular pressures and intracellular phosphate metabolite levels, the latter obtained by 31P nuclear magnetic resonance, were measured simultaneously in isolated, isovolumic rat hearts (Langendorf preparation) perfused at constant flow. Nineteen experimental hearts were perfused for 70 min with oxygenated HEPES-buffered solution containing 6 mg/L doxorubicin. These were compared with 18 control hearts (C), perfused under identical conditions but without doxorubicin, by repeated measures analysis of variance. In the experimental group, coronary perfusion pressure steadily increased to 226.3 +/- 13.8% (mean +/- SEM) of initial levels (p less than 0.0001 vs. C). Because flow was constant, the increase in coronary perfusion pressure in experimental hearts indicates a greater than twofold increase in coronary resistance. Intracellular phosphocreatine and ATP decreased to 80.3 +/- 3.9% (p less than 0.005 vs. C) and 82.1 +/- 6.4% (p less than 0.05 vs. C), whereas inorganic phosphate increased to 149.7 +/- 19.1% (p less than 0.05 vs. C) of initial levels, respectively. Accompanying these changes, diastolic pressure steadily increased to 521.7 +/- 91.4% of initial levels (p less than 0.0001 vs. C). Developed pressure initially increased to 107.1 +/- 4.5% at 30 min, and thereafter decreased to 76.2 +/- 6.3% at 70 min (p less than 0.05 vs. C). Typical structural alterations in myocyte nuclei were noted. Cellular calcium was not increased in doxorubicin-exposed hearts. Thus, acute doxorubicin cardiotoxicity is characterized by an increase in coronary resistance and is closely correlated with alterations in ventricular function and a decrease in intracellular high-energy phosphate content.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acute doxorubicin cardiotoxicity: functional, metabolic, and morphologic alterations in the isolated, perfused rat heart. 242 80

Acute response after traumatic events was studied in serial serum samples of 21 patients over a period of 13 days. Among the various biochemical and hematologic parameters, serum amyloid A (SAA) exhibited the most striking changes, with a pattern similar to that of the tissue marker creatine-P kinase (CPK). Maximal SAA level was detected 3-4 days after onset of the event, and reached 216 +/- 41 SEM gm/ml (normal range less than 2 gm/ml), while maximal CPK level was detected on the same day and reached 530 +/- 242 SEM IU/L (normal range 24-195 IU/L). Fibrinogen, leucocytes, platelets, albumin, alkaline phosphatase (AP), and calcium (Ca) each showed its own typical pattern of change. Fever did not develop. Comparison of SAA levels after various acute events suggests that damage to the myocardium is the most powerful stimulus for SAA induction, followed by traumatic events, arthritis, viral infections, and malignant diseases. It seems therefore that although acute response is considered a generalized reaction, it is not completely independent of the localized events which induce it. Among the known parameters, SAA is the most sensitive marker for monitoring the intensity of events.
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PMID:Serum amyloid A: an extremely sensitive marker for intensity of tissue damage in trauma patients and indicator of acute response in various diseases. 246 72

The influence of exercise intensity on the accumulation of inosine monophosphate (IMP) in human skeletal muscle has been investigated. Ten men cycled at workloads corresponding to 40%, 75% and 100% of their maximal oxygen uptake (VO2 max). Muscle IMP was below the detection limit (less than 0.01 mmol kg-1 dry wt) at rest and after exercise at 40% of VO2 max, but increased to 0.26 +/- 0.06 (mean +/- SEM) and 3.50 +/- 0.51 mmol kg-1 dry wt after exercise at 75% and 100% of VO2 max respectively. Accumulation of IMP corresponded to a similar decrease in the total adenine nucleotide content. The muscle content of IMP was positively related to lactate and negatively related to phosphocreatine (PCr). IMP was formed in both fibre types, but the IMP content at fatigue was about twice as high in type II fibres as in type I fibres. It was concluded that the IMP content of human skeletal muscle is very low at rest and after low-intensity exercise, but increases after moderate and high-intensity exercise. In contrast to rat muscle, where deamination of AMP predominantly occurs in the fast-twitch muscle fibres, IMP is formed during exercise in both fibre types in human muscle. Accumulation of IMP appears to reflect an imbalance between the rate of utilization and the rate of regeneration of ATP.
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PMID:Formation of inosine monophosphate (IMP) in human skeletal muscle during incremental dynamic exercise. 278 92

To test the hypothesis that contrast-enhanced magnetic resonance imaging (MRI) and magnetic resonance spectroscopy (MRS) can differentiate reversible from irreversible myocardial injury, these modalities were used to study ischemia and reperfusion in a rat model. The presence of ischemia and reperfusion were confirmed with radiolabeled microspheres (n = 6). Groups of animals were subjected to either 16 (n = 17), 30 (n = 14), 60 (n = 11), or 90 (n = 14) minutes of left coronary artery (LCA) occlusion and 60 minutes reperfusion. After albumin-gadolinium (Gd)-DTPA injection, contrast-enhanced, T1-weighted, spin-echo proton images were acquired at baseline and every 16 minutes during LCA occlusion and reperfusion. In separate experiments, 31phosphorus (31P) spectra were acquired at similar time points during ischemia and reperfusion. After 16 minutes occlusion, normally perfused myocardium enhanced significantly compared with ischemic myocardium on MRI (104 +/- 7.9% vs. 61 +/- 11.0%, p less than 0.05, n = 5, mean +/- SEM, % of baseline value). MRS showed reduced phosphocreatine (PCr) and adenosine triphosphate (ATP) (58.8 +/- 2.4%, p less than or equal to 0.01; 81.4 +/- 2.4, p less than or equal to 0.01, n = 12). After 16 or 30 minutes ischemia, reflow resulted in uniform MRI signal intensity of the ischemic zone compared with normal myocardium (93.5 +/- 11.3 vs. 80.9 +/- 7.0, p = NS, n = 11, % of baseline value at 30 minutes reperfusion) and PCr recovery on MRS (94.3 +/- 4.0%, p = NS, n = 20, % baseline value at 30 minutes reflow). After 60 and 90 minutes ischemia, reflow resulted in marked enhancement of reperfused compared with normal myocardium on MRI (254.0 +/- 30.0 vs. 78.3 +/- 9.2, p less than or equal to 0.01, n = 10) and no recovery of PCr on MRS (64.1 +/- 3.0, p = NS, n = 14). Triphenyltetrazolium chloride (TTC) staining revealed transmural myocardial infarction (MI) in all hearts subjected to 60 or 90 minutes ischemia and reflow, and small nontransmural MIs in only 2/11 hearts subjected to 16 or 30 minutes ischemia and reperfusion. Thus, 1) MRI with albumin-Gd-DTPA is useful for identifying myocardial ischemia by enhancing the contrast between normally perfused and ischemic myocardia; 2) MRI with albumin-Gd-DTPA is useful for identifying reperfusion after myocardial ischemia; and 3) after reperfusion, reversible can be distinguished from irreversible myocardial injury by characteristic findings on MRI and MRS.
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PMID:Assessment of myocardial salvage after ischemia and reperfusion using magnetic resonance imaging and spectroscopy. 279 Dec 55


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