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)

Hypoxic, hypercapnic acidosis (HHA) decreases tension and enhances fatigue in hamster diaphragm in vitro. We hypothesized that theophylline would decrease the harmful effect of HHA. Hamster diaphragm strips were studied in Krebs solution aerated with 21% O2 and 12% CO2. The force-frequency responses and the tension and relaxation of brief, submaximal contractions were studied. Mild fatigue was produced by a series of 45 submaximal contractions, after which recovery of force was followed for 15 min. Theophylline (0.55 mM) was added at the time of exposure to HHA (early theophylline) in half the strips and at the end of the fatigue run (late theophylline) in the others. In contrast to our hypothesis, early theophylline had a limited effect on force production in unfatigued HHA diaphragm strips and resulted in lower force production in the recovery period. Late theophylline improved force in the recovery period for low-frequency contractions. Thus the effect of theophylline in the setting of HHA depended on the time it was added and was beneficial only if added after the muscle stopped contracting.
...
PMID:The effect of theophylline on hypoxic, hypercapnic hamster diaphragm muscle in vitro. 202 50

We studied the relationship between contractile function and intracellular pH (pHi) in the isolated rat diaphragm when superfusate PCO2 was changed during hyperoxia or hypoxia. Superfused diaphragm strips were field stimulated at 0.5 Herz, and twitch tension (TT) was recorded. The pHi was calculated from the volume distribution of a weak acid, dimethyl-oxazolidinedione. In hyperoxia, hypercapnic acidosis (pH 7.06-6.63) depressed diaphragm pHi and TT, whereas hypocapnic alkalosis (pH 7.82-8.15) increased pHi but did not significantly affect TT. TT was maximum at physiological pHi (7.06), but in hyperoxic hypercapnic muscles substantial force was still generated at pHi values as low as 6.44. Hypoxia (PO2 30-38 mm Hg) markedly reduced TT; this effect was slightly exacerbated by hypercapnia and attenuated by hypocapnia. Hypoxia lowered pHi by about 0.2 units, which was insufficient to account for the hypoxic contractile failure. Knowledge of the hyperoxic muscle TT/pHi relationship suggests that, in other contexts, caution should be exercised in attributing severe muscle fatigue or force loss to modest falls in pHi.
...
PMID:The effect of pH and hypoxia on function and intracellular pH of the rat diaphragm. 210 18

The effect of acute hypercapnia on skeletal muscle contractility and relaxation rate was investigated. The contractile force of fresh and fatigued quadriceps femoris (QF) and adductor pollicis (AP) was studied in normal humans by use of electrical stimulation. Maximum relaxation rate from stimulated contractions was measured for both muscles. Acute hypercapnia led to a rapid substantial reduction of contraction force. The respiratory acidosis after 9% CO2 was breathed for 20 min [mean venous blood pH 7.26 and end-tidal PCO2 (PETCO2) 65.1 Torr] reduced 20- and 100-Hz stimulated contractions of QF to 72.8 +/- 4.4 and 80.0 +/- 5.1% of control values, respectively. After 8 and 9% CO2 were breathed for 12 min, AP forces at 20- and 50-Hz stimulation were also reduced. Twitch tension of AP was reduced by a mean of 25.5% when subjects breathed 9% CO2 for 12 min [mean arterialized venous blood pH (pHav) 7.25 and PETCO2 66 Torr]. Over the range of 5% (pHav 7.38 and PETCO2 47 Torr) to 9% CO2, there was a linear relationship between twitch tension loss and pHav, arterialized venous blood PCO2, and PETCO2. Acute respiratory acidosis (mean PETCO2 61 Torr) increased the severity of low-frequency fatigue after intermittent voluntary contractions of AP. At 20 min of recovery, twitch tension was 63.2 +/- 13.4 and 46.8 +/- 16.4% of control value after exercise breathing air and 8% CO2, respectively. Acute hypercapnia (mean PETCO2 65.1 and 60.5 Torr) did not alter the maximum relaxation rate from tetanic contractions of fresh QF and from twitch tensions of AP.
...
PMID:Effect of acute hypercapnia on limb muscle contractility in humans. 226 73

We studied the effect of aminophylline on twitch tension (TT) and intracellular pH (pHi) in isolated rat diaphragm strips that were fatigued, hypercapnic, or hypoxic. Superfused muscles were directly stimulated at 0.5 Hz. The pHi was measured from distribution volumes of dimethyl-oxazolidinedione. Fatigue was induced by intermittent tetanic stimulation. Hypercapnia and hypoxia were produced by altering superfusate carbon dioxide tension (PCO2) or oxygen tension (PO2). Aminophylline (1.0 mmol.l-1) reversed the twitch decay seen during fatigue or hypercapnic acidosis, and caused partial recovery of twitch depression during hypoxia. Muscle fatigue was not due to an intracellular acidosis. Both hypercapnia and hypoxia lowered pHi. Aminophylline did not alter pHi in unstimulated muscles, but caused a significant fall in pHi in stimulated muscles that were fatigued or hypoxic. High dose aminophylline improved twitch tension in diaphragm strips that were fatigued, acidotic, or hypoxic. Twitch potentiation was not due to an intracellular alkalosis. Aminophylline lowered pHi in stimulated muscle, and thus, theoretically, could sometimes be harmful in the treatment of muscle fatigue.
...
PMID:The effect of aminophylline on function and intracellular pH of the rat diaphragm. 228 69

Hypoxia and hypercapnic acidosis have been shown to have a negative inotropic effect on diaphragmatic contractility. The effect of combined hypercapnia and hypoxia was studied in vitro using hamster diaphragm strips. A 12% CO2, 21% O2, and 67% N2 gas mixture was used to produce hypoxic, hypercapnic acidosis. Force-frequency curves were generated using twitches and maximal tetanic contractions produced by stimulating with 0.2-ms pulses at 10 to 120 Hz for 300 to 500 ms. Moderate fatigue was then induced by repeated submaximal contractions (25 Hz, 160 ms, at the rate of 1/s for 45 contractions). Muscle strips exposed to hypoxic, hypercapnic acidosis had a decreased force response at all frequencies. The decrease in force was not different from that seen with hypoxia alone but was significantly worse than with hypercapnia alone. In the combined hypercapnic, hypoxia solution, tension produced by stimulating at 25 Hz for 160 ms was decreased to 52 +/- 11% of control (p less than 0.001). For these submaximal contractions, hypercapnic acidosis had a greater negative inotropic effect than did hypoxia alone. With repeated contractions, tension declined at a faster rate than in control, hypoxia alone, or hypercapnia alone. In the combined hypoxic, hypercapnic solution, the time constant of relaxation (tau) was increased prior to the start of the fatigue run compared to the control (tau = 35 +/- 6 versus 45 +/- 5 ms; p less than 0.001), and the tau increased at a faster rate than in control. These studies suggest that hypoxic, hypercapnic acidosis has a greater detrimental effect on the muscle than either abnormality alone and makes the muscle more susceptible to fatigue.
...
PMID:Hypoxic, hypercapnic acidosis decreases tension and increases fatigue in hamster diaphragm muscle in vitro. 265 1

This study evaluates the role of transmission fatigue of the diaphragm in rabbits subjected to inspiratory resistive loading (IRL) sufficiently severe to increase peak tidal airway pressure to about 50% of that elicited by 100 Hz phrenic nerve stimulation. After 58 +/- 14 min of IRL, the transdiaphragmatic pressure (Pdi) responses to phrenic nerve stimulation at 20, 60, and 100 Hz were reduced by approximately one third. In contrast, IRL induced no significant change in the response to direct diaphragm stimulation (in the presence of transient neuromuscular blockade). Although respiratory acidosis occurred during IRL (pH 7.04 +/- 0.04, PCO2 90 +/- 10, PO2 131 +/- 38), it was not sufficient to explain the reduced contractility. In a separate series of experiments, the diaphragm compound action potential elicited by unilateral phrenic nerve stimuli was recorded by implanted diaphragm electrodes and the Pdi elicited by contralateral phrenic nerve stimulation at 100 Hz was measured. Both action potential amplitude and Pdi declined during IRL and both improved after 10 min of recovery. These findings demonstrate that transmission fatigue plays a major role in rabbit diaphragm fatigue induced by spontaneous breathing against inspiratory resistance.
...
PMID:Transmission fatigue of the rabbit diaphragm. 282 96

Diaphragmatic contractility was assessed in spontaneously breathing ketamine-anesthetized rabbits by measuring the strength of diaphragmatic contraction in response to bilateral supramaximal phrenic nerve stimulation at frequencies between 10 and 100 Hz. During 10-180 min of inspiratory resistive loading, contractility decreased by approximately 40%, and hypoxemia and both respiratory and lactic acidosis developed. After 10 min of recovery, both the response to high-frequency stimulation (100 Hz) and the arterial PO2 and PCO2 returned to base-line levels, whereas metabolic acidosis and reduced response to low-frequency stimulation (10-20 Hz) persisted. Similar levels of hypoxemia and respiratory acidosis in the absence of inspiratory resistive loading did not alter diaphragmatic contractility. We conclude that in anesthetized rabbits excessive inspiratory resistive loading results in partially reversible diaphragm fatigue of the high- and low-frequency types, accompanied by hypoventilation and lactic acidosis.
...
PMID:Diaphragm fatigue induced by inspiratory resistive loading in spontaneously breathing rabbits. 406 83

The diseases which are commonly complicated by hypercapnic respiratory failure also compromise the respiratory muscles in several ways. Increased work of breathing, mechanical disadvantage, neuromuscular disease, impaired nutritional status, shock, hypoxemia, acidosis, and deficiency of potassium, magnesium, and inorganic phosphorus are the major non-neurologic factors which contribute to respiratory muscle fatigue and failure. Respiratory muscle fatigue has two components. High frequency fatigue occurs rapidly with intense contractile efforts but is usually not severe. It also recovers rapidly with rest. Low frequency fatigue develops more slowly but is severe and requires hours for recovery. Since the spontaneous rate of neural stimulation is predominantly in the low frequency range, this component of fatigue is of particular clinical importance. Fatigue of the inspiratory muscles leads to acute respiratory acidosis, but before carbon dioxide retention occurs, it can be recognized from characteristic symptoms and signs. These include dyspnea which responds to mechanical ventilation, rapid shallow breathing, and asynchronous movements of the chest and abdomen. Inspiratory muscle fatigue must be treated by putting these muscles to rest, by mechanically supporting ventilation. In addition, underlying metabolic nutritional and circulatory abnormalities must be corrected and infection treated. Aminophylline and isoproterenol can restore inspiratory muscle contractility, but controlled clinical trials remain to be done regarding their application in acute and chronic respiratory failure. Inspiratory muscle training improves strength and endurance in patients with obstructive lung disease, cystic fibrosis, and spinal cord injury, but does not always improve physical exercise performance. Again, more work is needed to develop the indications for inspiratory muscle training and to determine the optimum type and duration of the training regimen.
...
PMID:Respiratory muscle failure. 634 27

A resident living at Lake Tahoe, Calif, at an elevation of 2,000 meters, had fatigue, edema, and erythrocythemia. Hematocrit was 63 percent, and arterial blood gas values revealed hypoxemia and respiratory acidosis. Results of pulmonary function tests, sleep study, and thyroid function all were normal. Erythrocytosis, cor pulmonale, and respiratory acidosis resolved after the patient moved to sea level. This patient suffered from chronic mountain sickness. Her symptoms resolved with relief of hypoxia.
...
PMID:Chronic mountain sickness at an elevation of 2,000 meters. 636 45

We studied the effects of acute changes in the partial pressure of arterial carbon dioxide on diaphragmatic contractility and performance in four normal men. To study contractility we measured the ability of the diaphragm to generate pressure at a given level of excitation by determining the relation between the electrical activity of the diaphragm and transdiaphragmatic pressure during a voluntary quasi-isometric inspiratory effort carried out at different levels of end-tidal carbon dioxide. Our results show that contractility was reduced with hypercapnia (when end-tidal carbon dioxide was 7.5 per cent or higher), although hypocapnia (end-tidal carbon dioxide, 3 per cent) had no effect on diaphragmatic contractility. We also studied the development of diaphragmatic fatigue before and during carbon dioxide breathing. Subjects were studied at the same diaphragmatic tension-time index, a value analogous to the more familiar myocardial tension-time index, while the same inspiratory flow was maintained. Electromyographic signs of fatigue appeared at a lower tension-time index during hypercapnia than during normocapnia, indicating that endurance is diminished during hypercapnia. These findings show that acute respiratory acidosis equivalent to an arterial carbon dioxide tension of about 54 mm Hg decreases the contractility and endurance time of the diaphragm in human beings.
...
PMID:Effect of carbon dioxide on diaphragmatic function in human beings. 642 98

1 2 3 Next >>