UMLS:C0015672 - FACTA Search

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

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

Recent investigations have shown that theophylline improves diaphragmatic contractility of the respiratory muscles in isolated muscle preparations in animals and in normal human subjects. It has also been demonstrated that theophylline can reverse diaphragmatic fatigue and prevent fatigue of the diaphragm when given prophylactically. These effects have also been demonstrated in patients with severe chronic obstructive pulmonary disease, all of whom retained CO2 (PaCO2 53 +/- 3 mm Hg) and had hypoxia (PaO2 57 +/- 8 mm Hg). Theophylline, which increases respiratory muscle strength and delays the onset of diaphragmatic fatigue therefore could be a very useful agent in the treatment of patients with chronic airway obstruction.
...
PMID:Effect of theophylline on diaphragmatic muscle function. 329 24

Breath-holding subjects often exhibit involuntary contractions of respiratory muscles which are much stronger and faster than the efforts they would make during unrestricted breathing at the same level of CO2 and O2. To gain a better understanding of the genesis of these contractions, we compared them with the respiratory response to external elastic loading. Normal men rebreathed a mixture of 8% CO2 in oxygen against no load, elastic loads of 25 and 75 cm H2O/L, and held their breath, equivalent to an elastic load of 226 cm H2O/L. At iso-CO2, increasing loads led to progressively smaller tidal volumes, inspiratory flow rates and ventilation. However, respiratory muscles were progressively activated by the loads, as indicated by increasing occlusion pressure, so that inspiratory flow rate and ventilation were defended much better than could be expected if no neural compensation occurred. The pattern of respiratory muscle activity in breath-holding was qualitatively similar to that in elastic loading, and seemed quantitatively to be an extreme form of reaction to a large load. The reduction in inspiratory time and therefore of peak inspiratory pressure and ratio of inspiratory to total time with very large loads could be viewed as an adaptive response to limit respiratory muscle fatigue.
...
PMID:Similarities between behavior of respiratory muscles in breath-holding and in elastic loading. 337 9

Gluconeogenesis and alanine metabolism of normal and cirrhotic rats were studied in view of partial hepatectomy. Liver cirrhosis was made by repeated injection of thioacetamide in rat. Partial hepatectomy was performed by modified method of Higgins-Anderson. Liver glycogen and fructose-2, 6-bisphosphate were decreased after hepatectomy and recovered within 7 days in normal groups, while those of cirrhotic group reduced even in preoperative state were further decreased and hardly recovered after hepatectomy. Gluconeogenesis of perfused liver in cirrhosis was increased from both lactate and alanine preoperatively, but gluconeogenesis from alanine was not increased in both hepatectomized rats. ATP and energy charge were decreased after hepatectomy and recovered within two weeks. These level were lower in cirrhotic group, and decreased further and hardly recovered after hepatectomy. Alanine utilization to CO2 in vivo was not impaired in cirrhotic group either preoperatively or postoperatively. ATP and energy charge were increased by alanine injection in hepatectomized rats of both normal and cirrhotic group. In conclusion, glucose-insulin therapy of sufficient amounts is important to improve decreased glycolysis and abnormal gluconeogenesis on both post-hepatectomy period of normal and pre and post-hepatectomy period of cirrhosis. Also alanine is effective for stimulating decreased energy production.
...
PMID:[Changes of gluconeogenesis and alanine metabolism following partial hepatectomy in normal and cirrhotic rats]. 339 28

Fatigue is a frequent complaint from patients suffering from the hyperventilation syndrome. Fatigue was quantified in terms of the endurance time that a certain force can be generated in a sustained handgrip contraction, and in terms of the time course of changes in certain parameters of the EMG-power spectrum of the contracting muscles. This was done in a group of 25 normal subjects and a group of 30 patients suffering from the hyperventilation syndrome. No difference in endurance times was found. The EMG-fatiguability in the hyperventilation group developed even slower than in the normal group. In three normals the fatigue parameters were also measured in three conditions of normo-, hypo-, and hyper-capnia. No intraindividual correlations were found between fatigue parameters and CO2-levels. Neither were such correlations found between individuals in the hyperventilation group and the normal group. It is concluded that the subjective feelings of fatigue in the hyperventilation patients cannot be corroborated by the objective measurements used in this study. Thus their fatigue is not of a peripheral type. The levels of CO2 do not have an effect on objectively measured fatigue parameters. The hypothesis that lactate accumulation in contracting muscles mediates EMG-fatiguability, cannot explain the present results, and therefore is not supported by results from this study.
...
PMID:Hyperventilation syndrome and muscle fatigue. 340 98

Methylxanthines and particularly caffeine are known to increase skeletal muscle contractility. Recently, it has been shown that theophylline improves diaphragmatic contractility of the respiratory muscles both in isolated muscle preparations and in animals and normal human beings. Furthermore, it has been demonstrated that theophylline reverses diaphragmatic fatigue and prevents fatigue of the diaphragm when it is given prophylactically. Finally, recent evidence indicates that theophylline improves diaphragmatic function in patients with chronic obstructive pulmonary disease, all of whom retained CO2 (PaCO2 43 +/- 3 mm Hg) and had hypoxia (PaO2 57 +/- 8 mm Hg). Patients both improved transdiaphragmatic pressure and were less susceptible to fatigue. These data strongly suggest that theophylline, which increases respiratory muscle strength and delays the onset of diaphragmatic fatigue, could be a very useful agent in the treatment of patients with chronic airway obstruction.
...
PMID:Effect of theophylline on diaphragmatic and other skeletal muscle function. 353 59

Oxygen utilization, arterial and venous blood gas levels, hemodynamic values and exercise tolerance were compared before and after administration of propranolol and verapamil in 10 patients with stable angina pectoris. During exercise, propranolol decreased cardiac output (CO) by 22%; O2 extraction was increased and O2 consumption (VO2) did not change. With verapamil treatment, CO modestly increased (7%), O2 extraction decreased and VO2 did not change. In contrast to O2 utilization, the drugs produced opposite changes in mixed venous and arterial blood gas levels. Propranolol decreased mixed venous pH, increased CO2 tension and decreased the pH of arterial blood. Verapamil increased venous pH and decreased CO2 tension; pH of arterial blood did not change. The drugs yielded similar levels of antianginal efficacy, but patients exercised longer during verapamil therapy and were less fatigued. The hemodynamic and metabolic differences suggest that muscle perfusion during exercise influences the onset of fatigue and may help determine the choice of therapy.
...
PMID:Effect of propranolol and verapamil on oxygen utilization, acidosis and fatigue during exercise in stable angina pectoris. 361 85

The metabolic and ventilatory responses to steady state submaximal exercise on the cycle ergometer were compared at four intensities in 8 healthy subjects. The trials were performed so that, after a 10 min adaptation period, power output was adjusted to maintain steady state VO2 for 30 min at values equivalent to: (1) the aerobic threshold (AeT); (2) between the aerobic and the anaerobic threshold (AeTAnT); (3) the anaerobic threshold (AnT); and (4) between the anaerobic threshold and VO2max (AnTmax). Blood lactate concentration and ventilatory equivalents for O2 and CO2 demonstrated steady state values during the last 20 min of exercise at the AeT, AeAnT and AnT intensities, but increased progressively until fatigue in the AnTmax trial (mean time = 16 min). Serum glycerol levels were significantly higher at 40 min of exercise on the AeAnT and the AnT when compared to AeT, while the respiratory exchange ratios were not significantly different from each other. Thus, metabolic and ventilatory steady state can be maintained during prolonged exercise at intensities up to and including the AnT, and fat continues to be a major fuel source when exercise intensities are increased from the AeT to the AnT in steady state conditions. The blood lactate response to exercise suggests that, for the organism as a whole, anaerobic glycolysis plays a minor role in the energy release system at exercise intensities upt to and including the AnT during steady state conditions.
...
PMID:Metabolic and ventilatory responses to steady state exercise relative to lactate thresholds. 369 10

These experiments were conducted to determine whether changes in arterial O2 tension are related to changes in muscle metabolism during fatiguing contractions. Arterial and venous circulation to the gastrocnemius muscle (n = 8) was isolated, and the Achilles tendon was attached to a force transducer. Each muscle was electrically stimulated through the sciatic nerve for three 2-min periods of fatiguing contractions separated by 8 min of rest. The arterial O2 tensions were altered for each work period (mean PO2 = 44, 72, 391 Torr). Arterial and venous samples were drawn to measure lactate, O2 and CO2 concentrations (Van Slyke analysis), and [H+]. Muscle biopsies were taken to measure muscle [H+] (homogenate method) and lactate. Fatigue was evaluated as the decline in tension from peak initial tension. At the end of the contraction periods, values were significantly different (P less than 0.05) between the low arterial O2 tension and the high for flow [84 +/- 6 (mean +/- SE) vs. 70 +/- 8 ml X 100 g-1 X min-1], muscle lactate contraction (44 +/- 10 vs. 26 +/- 4 mmol/kg dry wt), and lactate release (122 +/- 12 vs. 57 +/- 14 mumol X 100 g-1 X min-1). O2 uptake and the rate of fatigue were not different among treatments during contractions. Muscle [H+] increased (work [H+] minus rest [H+]) to a significantly greater extent during low arterial O2 tensions compared with high (P less than 0.05). We conclude that alterations in arterial O2 tension during fatiguing contractions induce changes in blood and muscle acid-base status and in muscle metabolism that are independent of O2 uptake.
...
PMID:Effect of altered arterial O2 tensions on muscle metabolism in dog skeletal muscle during fatiguing work. 374 Feb 52

Albino rats, Wistar family, have been raised since birth in normobaric hypoxic environment (10-12% O2). This hypoxic animal group and a normoxic animal group were subjected to muscular fatigue by forced march within revolving room. Normoxic animals were subjected to 3 spaced trials: in normoxic environment; in hypoxic normobaric environment; in the same hypoxic normobaric environment with about 2% CO2 added. Hypoxic animals were subjected to 2 spaced trials: in hypoxic normobaric environment; in the same hypoxic environment with about 2% CO2 added. At the end of every single trial, lactatemia, blood pyruvate, acid-base balance and the erythrocytic number were examined. Albino rats raised in hypoxic environment since birth, subjected to muscular work in hypoxic environment showed a smaller increase of lactatemia and a moderate variation of the acid-base balance, compared to normoxic animals in the same conditions. CO2 added to the respired hypoxic mixture during muscular work, attenuated in both animal groups, the observed modifications. Finally we found that the erythrocytes per mm3 of blood increased from the second drawing of blood.
...
PMID:Acid-base balance and blood lactate and pyruvate levels in albino rats bred under normobaric hypoxia or normoxia, after muscular work in a hypoxic or hypoxic-hypercapnic environment. 380 71

Theophylline enhances the force of diaphragmatic contraction and delays fatigue. The mechanism is not known, but recent evidence suggests it may act at the cell membrane. To test this hypothesis, we studied the effect of theophylline on resting membrane potential and tension in hamster diaphragm cells. Muscle strips were obtained from five adult hamsters and placed in Krebs solution, aerated with 95% O2, 5% CO2. Resting membrane potential was measured using 3-M KCl-filled glass microelectrodes; 15-22 fibers in each strip were sampled. Force frequency curves (twitch to 100 Hz) were obtained. The muscle bath was then changed to one containing 100 mg/liter (0.55) theophylline. Resting membrane potential was -76 +/- 3 mV (mean +/- S.D.) in Krebs solution and increased to -85 +/- 3 mV (P less than 0.01) with added theophylline. Tension increased from 5% (at 100 Hz) to 20% (at 10 Hz) with theophylline. Hyperpolarization indicates an increase in intracellular to extracellular potassium concentration. Net potassium outflow occurs with each contraction, causing the cell membrane to become depolarized with repeated contractions, ultimately leading to fatigue. The hyperpolarization of the skeletal muscle cell membrane observed with theophylline may play an important role in prolonging time to fatigue.
...
PMID:Effect of theophylline on membrane potential and contractile force in hamster diaphragm muscle in vitro. 394 72

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>