Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0015672 (fatigue)
51,768 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lactic acid is thought to be a stimulant of muscle metaboreceptors. The goal of the present study was to determine if inhibition of lactic acid production by dichloroacetate (DCA) would attenuate muscle sympathetic nerve activity (MSNA) during static forearm exercise. DCA increases pyruvate dehydrogenase levels. Thus, for a given amount of pyruvate produced, less lactic acid is formed. Seven subjects performed static forearm exercise at 20% maximal voluntary contraction until fatigue followed by posthandgrip circulatory arrest (PHG-CA) (trial.1). Subjects then received DCA (35 mg/kg) and repeated the exercise protocol (trial 2). We observed an attenuated rise in forearm venous lactate and MSNA. The trial 2 MSNA value during PHG-CA was 51 +/- 11% less than the value during trial 1 (P less than 0.01). In seven control subjects, two bouts of static forearm exercise were performed with an intervening saline infusion. This intervention had no effect on lactate or MSNA responses to exercise. We conclude that DCA attenuates lactate responses to static exercise, and this is associated with a blunted MSNA response.
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PMID:Dichloroacetate reduces sympathetic nerve responses to static exercise. 195 52

We examined the influences of territorial status, encounter outcome, body mass difference, activity, and display on lactate accumulation in adult male Anolis carolinensis during agonistic interactions. Of the pairs of lizards frozen at the onset of an encounter, intruders had significantly higher lactate concentrations than residents. Lactate levels at the onset of an interaction were not significantly different from those at the conclusion, suggesting a limited role for glycolysis during such events. The outcome of an agonistic encounter was not based on fatigue. Individuals that were larger or changed sites had a lower relative lactate concentration at the conclusion of an interaction than smaller or sedentary animals. We consider the influence of autonomic arousal on glycolysis.
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PMID:Glycolysis in Anolis carolinensis during agonistic encounters. 223 61

Two patients with muscle phosphorylase deficiency [McArdle's disease (McA)] were studied during bicycle exercise at 40 (n = 2) and 60 W (n = 1). Peak heart rate was 170 and 162 beats/min, corresponding to approximately 90% of estimated maximal heart rate. Muscle samples were taken at rest and immediately after exercise from the quadriceps femoris. Lactate content remained low in both muscle and blood. Acetylcarnitine, which constitutes a readily available form of acetyl units and thus a substrate for the tricarboxylic acid cycle, was very low in McA patients both at rest and during exercise, corresponding to approximately 17 and 11%, respectively, of that in healthy subjects. Muscle NADH was unchanged during exercise in McA patients in contrast to healthy subjects, in whom NADH increases markedly at high exercise intensities. Despite low lactate levels, arterial plasma NH3 and muscle inosine 5'-monophosphate increased more steeply relative to work load in McA patients than in healthy subjects. The low postexercise levels of lactate, acetylcarnitine, and NADH in McA patients support the idea that exercise performance is limited by the availability of oxidative fuels. Increases in muscle inosine 5'-monophosphate and plasma NH3 indicate that lack of glycogen as an oxidative fuel is associated with adenine nucleotide breakdown and increased deamination of AMP. It is suggested that the early onset of fatigue in McA patients is caused by an insufficient rate of ADP phosphorylation, resulting in transient increases in ADP.
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PMID:Impaired oxidative metabolism increases adenine nucleotide breakdown in McArdle's disease. 226 40

Numerous studies report controversial results about the occurrence and role of cardiodepressant substances in various forms of circulatory shock. We investigated the net inotropic effect of the low molecular weight fraction (mol wt less than or equal to 1,000) of plasma in prolonged canine hypovolemic traumatic shock using an in vitro guinea pig papillary muscle assay (isotonic mode). The shock plasma fractions (ultrafiltrates) after 4 hr of hypotension (mean arterial blood pressure 40-50 mm Hg) and immediately post-reinfusion significantly depressed papillary muscle function (P less than .02). The extent of papillary muscle shortening was decreased by 49.5 +/- 9.9% in pre- and 50.6 +/- 10.0% in post-reinfusion plasma ultrafiltrates (mean values +/- standard error of the mean; n = 6 shock experiments). In contrast, both the plasma ultrafiltrates from ten non-anesthetized healthy dogs and the control ultrafiltrates obtained prior to onset of shock in the experiments (-6.4 +/- 2.6; n = 6) induced no significant change of the in vitro performance of papillary muscle contraction. These results were achieved with plasma fractions in which ionized calcium and pH were adjusted to concentrations equivalent to the bioassay solution. Lactate acidosis and severe hypoglycemia (1.97 +/- 0.43 mM post-reinfusion) occurred in the shock experiments. Lack of energy substrate (glucose) was not responsible for the in vitro depression. Four depressive shock ultrafiltrates with glucose concentrations adjusted to control ultrafiltrate levels induced a 66.6 +/- 8.8% decrease in the extent of papillary muscle shortening. These results suggest that the possible occurrence of high net negative inotropic activity in plasma, especially just post-reinfusion, may play a role in the pathogenesis of irreversible circulatory shock.
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PMID:Net inotropic plasma activity in canine hypovolemic traumatic shock: low molecular weight plasma fraction after prolonged hypotension depresses cardiac muscle performance in vitro. 231 Dec 3

Subjective fatigue was quantified before and 20 days after uncomplicated elective abdominal surgery in 12 patients and compared with changes in heart rate, enzyme activities and skeletal muscle substrates before and after bicycle exercise for 10 min at 65 per cent of patients' preoperative maximum work capacity. Fatigue increased from a mean(s.e.m.) preoperative level of 2.5(0.5) arbitrary units to 4.6(0.5) on postoperative day 20 (P less than 0.01). Body-weight, triceps skinfold thickness and arm circumference decreased postoperatively (P less than 0.02). Postoperative values of muscle enzyme activities indicative of oxidative phosphorylation capacity (citrate synthase and 3-OH-acyl coenzyme A dehydrogenase) were lower than preoperative values (P less than 0.05). Lactate dehydrogenase was unaltered and resting values of muscle glycogen and adenosine triphosphate were higher after operation (P less than 0.05). In response to exercise, heart rate, muscle glucose, glucose-6-phosphate and lactate increased (P less than 0.05), while muscle glycogen and creatine phosphate decreased (P less than 0.05). Increase in postoperative fatigue correlated with the increase in heart rate (P less than 0.05), while no significant correlations were found between fatigue and muscle parameters. Our results suggest that lack of exercise and malnutrition may be of importance in the decrease in work capacity and in fatigue after operation.
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PMID:Skeletal muscle enzyme activities and metabolic substrates during exercise in patients with postoperative fatigue. 232 98

In a double-blind placebo-controlled crossover study of ten patients with multiple sclerosis, we found amantadine hydrochloride therapy to be effective in improving fatigability in six. Administration of the drug was associated with significantly higher levels of beta-endorphin-beta-lipotropin and responders had significantly higher levels than nonresponders. Lactate levels were significantly higher and pyruvate levels lower in nonresponders. Amantadine given for fatigue to patients with multiple sclerosis is associated with measurable changes in levels of metabolites and peptides in the circulation.
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PMID:Amantadine, fatigue, and multiple sclerosis. 297 70

Following a period of intense repetitive stimulation (e.g., brief tetanic stimuli every second for 3 min), muscle isometric tension development is reduced by about 80%. This suppression is reversible at a high external pH (8.0) with a half time of 15-20 min, but if the external pH is low (6.4) or the buffer concentration is low, recovery is prevented. Inhibition of recovery is associated with a slowed rate of lactate loss, which may suggest that intracellular lactacidosis is the cause of the inhibition. Alternatively, a low external pH may affect recovery from fatigue quite independently of its effect on lactate efflux. The possibility that surface membrane properties are changed by fatigue in a pH-dependent fashion was examined by measuring the cable properties and action potentials of fatigued fibres at different external pH values. A low external pH during recovery from fatigue was shown to result in a prolonged membrane depolarization of 10-12 mV, an increased transmembrane resistance, and a prolonged action potential. At a high external pH transmembrane resistance is lowered by fatigue, the depolarization lasts only about 10-15 min, and there is a smaller effect on the action potential. While the fatigued fibre membrane does show a changed response that is dependent on external pH, it is not clear that this could be related to the suppression of contraction. Direct measurements of intracellular pH show a fall of about 0.4 to 0.5 pH units in the surface fibres following fatigue. This results from the lactic acid generated during activity. It is now clear that lactate crosses the membrane in association with protons and at least part of this flux is mediated by a specific carrier mechanism. Efflux is limited by the transmembrane pH gradient, which in turn depends on the extracellular buffer concentration in the diffusion limited space around the fibres. Intracellular lactacidosis in resting muscles can be generated by a reversal of the normal flux. Fibres can be loaded with lactate (L) by increasing the extracellular [H+][L-] product with a resultant fall in intracellular pH. Lactate loads similar to those seen in fatigued muscle simulate some but not all of the responses seen in the postfatigue state. The twitch is prolonged with a slow relaxation phase, an increased time to peak tension but with an increase in peak tension. The effects are reversible but usually result in a reduced contractile response following the washout.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The pH dependence of the contractile response of fatigued skeletal muscle. 303 87

The factors that determine maximal O2 uptake (VO2max) and muscle performance during severe, acute hypoxemia were studied in isolated, in situ dog gastrocnemius muscle. Our hypothesis that VO2max is limited by O2 diffusion in muscle predicts that decreases in VO2max, caused by hypoxemia, will be accompanied by proportional decreases in muscle effluent venous PO2 (PvO2). By altering the fraction of inspired O2, four levels of arterial PO2 (PaO2) [21 +/- 2, 28 +/- 1, 44 +/- 1, and 80 +/- 2 (SE) Torr] were induced in each of eight dogs. Muscle arterial and venous circulation was isolated and arterial pressure held constant by pump perfusion. Each muscle worked maximally (3 min at 5-6 Hz, isometric twitches) at each PaO2. Arterial and venous samples were taken to measure lactate, [H+], PO2, PCO2, and muscle VO2. Muscle biopsies were taken to measure [H+] (homogenate method) and lactate. VO2max decreased with PaO2 and was linearly (R = 0.99) related to both PVO2 and O2 delivery. As PaO2 fell, fatigue increased while muscle lactate and [H+] increased. Lactate release from the muscle did not change with PaO2. This suggests a barrier to lactate efflux from muscle and a possible cause of the greater fatigue seen in hypoxemia. The gas exchange data are consistent with the hypothesis that VO2max is limited by peripheral tissue diffusion of O2.
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PMID:Limitation of maximal O2 uptake and performance by acute hypoxia in dog muscle in situ. 317 Apr 31

Nine male marathon runners were exercised to exhaustion to determine the effects of a 27-h fast on endurance performance. Each subject completed two exercise tests at the same treadmill speed (set at 70% maximal O2 uptake), one following a 27-h fast and one 3 h after a preexercise meal, in random order. Fasting caused a 44.7 +/- 5.8% (SE) decrease in endurance performance (P less than 0.01). Blood, muscle, psychological, and ventilatory data were examined to determine the cause of the decreased performance. Fasting caused significant increases in O2 uptake (9.3 +/- 2.0%), heart rate (8.4 +/- 2.4%), and rating of perceived exertion, ventilation, and psychological fatigue, evident within the first 60 min of exercise. There were no differences in plasma glucose or epinephrine levels. Muscle glycogen degraded at the same rate (0.482 +/- 0.146 vs. 0.470 +/- 0.281 mumol.g-1.min-1 in the nonfasted and fasted tests, respectively) despite lower respiratory exchange ratio and elevated free fatty acid levels, which may partially explain the elevated O2 uptake. Lactate, insulin, and norepinephrine were all increased in the fasted test (P less than 0.05). The increase in norepinephrine (r = 0.79, P less than 0.01), the diameter of type I muscle fibers (r = 0.70, P less than 0.05), and ending insulin levels (r = -0.88, P less than 0.01) were correlated with endurance time in the fasted state. Fatigue in endurance running for 27-h fasted humans appears to be related to a combination of physiological, psychological, metabolic, and hormonal changes.
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PMID:Running endurance in 27-h-fasted humans. 332 90

Six male subjects wearing anti-G suits were exposed to +4.5 Gz and +4.5-7 Gz simulated aerial combat maneuvers (SACM), sustained until terminated because of fatigue. Before and after each G exposure, venous blood was withdrawn (using the finger-prick method) and analyzed for lactate concentration. Five samples were taken serially, at 1, 3, 6, 10, and 20 min after each G exposure to determine the maximum (peak) level of blood lactate. Individual lactate levels varied, with peaks at 1, 3, and 6 min; however, group levels were maximum at 3 min after the G exposure. Maximum lactate levels (mean +/- S.D.) of 27.8 +/- 11.3 mg% and 42.7 +/- 19.4 mg% were found for the 4.5-G and SACM exposures, respectively. Lactate recoveries were a simple exponential function, with a half life of approximately 10 min. The relationship between these data, following G exposure, and those measured after aerobic physical activities, is discussed.
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PMID:Optimum sampling times for maximum blood lactate levels after exposures to sustained +Gz. 335 67


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