UMLS:C0015672 - FACTA Search

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

Six weeks of limb immobilization of a healthy muscle (cat tibialis posterior) at a short length resulted in a significant reduction of mean fiber area for all fiber types (I, 71% of control; IIa, 77% of control; IIb, 79% of control), whereas fiber type proportions were unchanged. For motor units, there was a reduction in peak tetanic force (type slow > fast fatigue resistant > fast fatigable); an increase in the twitch-to-tetanus ratio for fast fatigue-resistant and slow units; and no effect on the twitch force, twitch time course, or fatigability. The reduction in peak force was greater than expected because of fiber atrophy in slow units. Immobilization had a minimal effect on muscle spindle afferent (Ia and spindle group II) responses to a ramp-and-hold stretch of the passive muscle. Tendon organ (Ib) afferents had an increased responsiveness to stretch after immobilization but only when the muscle was stretched from a short resting length. However, immobilization reduced the modulation of muscle afferent discharge in response to tetanic contractions of single motor units. The decline in responsiveness of spindles was a result of the reduced tetanic force of motor units. In contrast, tendon organs in immobilized muscle were twice as likely to convey no information on the contraction of a single motor unit and were more likely to be unloaded, suggesting that immobilization caused the functional denervation of some muscle fibers. Thus the responses of muscle spindles and tendon organs in immobilized muscle reflected atrophic changes in extrafusal fibers but did not provide evidence for substantial disturbance of receptor function.
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PMID:Reduced motor unit activation of muscle spindles and tendon organs in the immobilized cat hindlimb. 777 35

Chronic repetitive stimulation of skeletal muscle causes significant changes in contractile mechanics and makes the muscle fatigue resistant. The purpose of this study was to quantify the magnitude and time course of these changes. One latissimus dorsi muscle from each of 28 mongrel dogs was stimulated in situ at 1 Hz for 0, 3, 7, 14, 21, 42, or 70 days. Changes in isometric and isotonic mechanical performance were measured as a function of conditioning time. Isotonic force and velocity data were fitted to the Hill equation to obtain Vmax. The most striking early change was a 30 and 26% decline in muscle mass and cross-sectional area, respectively. Coincident with this was an approximate 40% decline in tetanic and twitch tension. There was a similar decline in the rates of rise and fall of twitch and tetanus tensions (+dT/dt and -dT/dt). The decline in tetanus +dT/dt and -dT/dt followed a similar time course, suggesting that these muscle functions were under similar influences. Calculation of the isometric force data per unit of cross-sectional area minimized the effect of stimulation on isometrically measured muscle function but did not eliminate it. Fusion frequency declined 52% with conditioning. The increases in time-to-peak twitch tension and half-relaxation time were independent of cross-sectional area. Time-to-peak twitch tension and half-relaxation time increased after 7 days of stimulation and became maximal after 42 or 70 days, respectively. Time-to-peak tetanus tension was unchanged by muscle conditioning. Changes in the force-velocity relationship began after 3 days of stimulation, changed very little between 3 and 21 days of stimulation, and showed another change after 42 and 70 days of stimulation. It may be possible to better modify the muscle for dynamic cardiomyoplasty by pharmacological or stimulation regimens once the mechanism of fiber switching is better understood.
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PMID:Changes in muscle mechanics during chronic conditioning for cardiomyoplasty. 779 45

The goal of this study was to investigate how an increase in the extracellular K+ (K0+) concentration immediately after fatigue affects the recovery of the resting potential, the twitch and tetanic contraction of frog sartorius muscle to further understand the role of K+ in the mechanism of fatigue. Resting potentials were measured with conventional microelectrodes. Twitch and tetanic contractions were elicited by field stimulation. All muscles were fatigued with tetanic contractions at a rate of one contraction per second for 3 min while being exposed to 3 mmole l-1 K0+. During fatigue development the resting potential decreased by 16 mV (control group and pH0 7.2, extracellular pH), while the decrease in the twitch force was 32.8%, compared to 79.3% for the tetanic force, and 84.6% for the maximum rate of force development of the tetanus. Fatigued muscles were also unable to maintain a plateau phase during a tetanus: force declined by 14.8% during this phase. During the recovery period under control conditions (3 mmole l-1 K0+), all four parameters returned to their pre-fatigue values, the recovery of the plateau phase was the fastest (10 min), while that of the twitch force was the slowest (80 min). When K0+ was increased to 7.5 or 9.5 mmole l-1 immediately after fatigue, the recovery rate of the tetanic force and plateau phase was reduced. The maximum rate of force development of the tetanus, however, recovered at a faster rate than control muscles. The recovery of the twitch force was also increased above that of control when K0+ was increased to 9.0 mmole l-1 (a concentration which maximally potentiates the twitch force of unfatigued muscle). Frog sartorius muscles were also tested at pH0 6.4, a pH0 which inhibits force recovery. At that pH0 the effects of K0+ were similar to those observed at pH0 7.2. It is concluded that the role of K+ in muscle fatigue is more complex and may not involve just a contribution to the decrease in force during fatigue development, but may also contribute to an increase in force development under some conditions.
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PMID:The effect of K+ on the recovery of the twitch and tetanic force following fatigue in the sartorius muscle of the frog, Rana pipiens. 780 36

Single fibres from the anterior tibialis muscle of Rana temporaria (temperature, 2-3 degrees C) were moderately fatigued at a prestretched sarcomere length (approximately 3.6 microns) by reducing the intervals between 2 s tetani from 240 to 20 s. Changes in length of marked segments along the muscle fibre were monitored during fixed-end tetani using a photoelectric recording system. In contrast to the situation at 2.2 microns sarcomere length, the central region of the fibre was elongated during tetanus at the prestretched fibre length, whereas the segments next to the fibre-tendon junctions (end segments) shortened correspondingly. These length changes were associated with a slow climb of force (tension creep). During development of fatigue, the maximum tetanic tension was reduced to about 78% of the control value and the time course of the tetanus was markedly changed. The tension creep observed in control tetanus was greatly reduced during fatigue, the tetanic tension remaining nearly constant after an initial rising phase. The change in shape of the force myogram during fatigue was associated with a considerable reduction in the amplitude of segment movements along the fibre. The results are explainable by assuming that the end segments (having shorter sarcomeres) become more fatigued than other parts in series along the fibre. At the same time the central segments are likely to have acquired a higher ability to resist stretch by the end segments.
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PMID:Moderate fatigue studied at great sarcomere lengths in frog single muscle fibres. 783 60

We used a 4-minute sustained maximum voluntary contraction to investigate fatigability of the anterior tibial muscle in eight healthy boys and 11 boys with Duchenne muscular dystrophy (DMD) (ages 5 to 10 years). Before exercise, the force generation of dystrophic muscle and the compound muscle action potential amplitude were lower and half-relaxation time of the tetanus was longer in patients than in controls. During exercise, the decline in tetanic force and potentiation in twitch tension were similar in both groups. However, during exercise, there was less decline in maximum voluntary contraction and less added force in DMD patients, suggesting that there was less central fatigue in patients than in controls. Thus, patients with DMD and controls have similar intramuscular fatigability and excitation-contraction coupling, and central activation in patients is functioning as well as or better than in healthy controls.
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PMID:Muscular fatigue in Duchenne muscular dystrophy. 785 31

1. Intracellular calcium concentration ([Ca2+]i) and force were measured from isolated single mouse skeletal muscle fibres at rest and during tetani. The actions of 2,5-di(tert-butyl)-1,4-benzohydroquinone (TBQ), an inhibitor of the sarcoplasmic reticulum (SR) Ca2+ pump, were examined at a range of concentrations (100-1000 nM). 2. TBQ increased resting [Ca2+]i, increased tetanic [Ca2+]i and slowed the rate of decline of [Ca2+]i after a tetanus. TBQ produced a small increase in tetanic force and a large slowing of the rate of relaxation after a tetanus. All these effects were reversible. 3. TBQ had no important effects on the Ca2+ sensitivity or the maximum force produced by the myofibrillar proteins. 4. Analysis of the SR Ca2+ pump function confirmed that under control conditions and at very low levels of [Ca2+]i, the relationship between [Ca2+]i and SR pump rate was a 4th power function. TBQ caused a pronounced inhibition of the pump rate and reduced the power function to < 3. 5. Muscle fibres were fatigued by repeated tetani until tetanic [Ca2+]i and force were reduced and the rate of decline of [Ca2+]i after a tetanus was slowed. Under these conditions application of TBQ caused a further slowing of the rate of decline of [Ca2+]i but still increased tetanic [Ca2+]i and force. This result suggests that slowing of the SR pump rate is not the cause of the decline in tetanic [Ca2+]i and force at the late stage of fatigue. 6. A simple model of the interactions of Ca2+, TBQ and pump proteins is described, which predicts the 4th power function of the normal pump, inhibition by TBQ, and the reduced power function in the presence of TBQ. 7. A model of Ca2+ movements and force development in muscle is described, which closely matches the experimental results under control conditions. Inhibition of the SR pump by TBQ using the model of the pump described above simulates qualitatively all the observed effects of TBQ on [Ca2+]i and force. 8. In conclusion, TBQ is a potent, specific and reversible inhibitor of the SR Ca2+ pump in intact mouse skeletal muscle. Inhibition of the pump directly affects intracellular Ca2+ handling and force production.
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PMID:The role of sarcoplasmic reticulum in relaxation of mouse muscle; effects of 2,5-di(tert-butyl)-1,4-benzohydroquinone. 800 16

1. Intact frog single fibres were investigated under control conditions (1 s tetanus every 2, 3 or 5 min) and during moderate fatigue (interval between tetani 15 or 30 s). 2. Fatigue reduced isometric force (P0) by 25.8 +/- 1.6% (S.E.M.; n = 13) and depressed the maximum velocity of shortening (Vmax) by 10.2 +/- 2.2% (n = 13). The force-velocity relation became less curved, a/P0* (see Methods) being increased by 29.5 +/- 8.8% (n = 13). Thus, power was less affected than isometric force or Vmax. 3. The velocity of unloaded shortening (V0), from slack test measurements, was reduced proportionally more than Vmax during fatigue. Under control conditions V0 was larger than Vmax, but during fatigue their values were not significantly different. 4. Stiffness during shortening was reduced during fatigue indicating fewer attached cross-bridges in fatigue. Force was reduced more than stiffness indicating that, on average, there is less force per attached cross-bridge. 5. The force-lengthening velocity relation showed that the ability to resist forces greater than isometric was well preserved in fatigue. 6. Compared with fatigue, intracellular acidification with CO2 produced a smaller reduction in isometric force. However, reduction in Vmax was not significantly different from that in fatigue. These results are consistent with both inorganic phosphate and H+ increasing in fatigue, but only H+ increasing during acidification, and isometric force being reduced by both, Vmax being sensitive only to H+.
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PMID:Force-velocity relation for frog muscle fibres: effects of moderate fatigue and of intracellular acidification. 800 30

1. Contractile and fatigue-resistance characteristics, temperature sensitivity (10-37 degrees C) of contraction, and histochemical fibre types were determined for two of the extraocular muscles, the superior rectus and levator palpebrae superioris (levator), of the rabbit. 2. The levator displayed similar contractile characteristics (time to peak, half-relaxation time of twitch response, and twitch-tetanus force ratio) to mammalian fast-twitch limb muscle at room temperature (20 degrees C). However, normalized twitch and tetanic force levels were significantly less than those found in limb muscle. The superior rectus displayed the characteristics of even faster contraction than the levator at 20 degrees C, but generated lower maximum force levels than the levator. 3. The twitch response of the superior rectus showed a biphasic relaxation phase. This response was not due to non-twitch (tonic) fibres present in the superior rectus as it was unaffected by propranolol application during muscle stimulation. 4. The superior rectus and levator displayed significantly less fatigue in the tetanic force response than fast-twitch limb muscles did in response to a fatiguing electrical stimulation protocol. The levator was significantly more fatigue resistant than the superior rectus. 5. The force responses of both extraocular muscles displayed a similar dependence on temperature (10-37 degrees C) to limb skeletal muscles. 6. The superior rectus and levator exhibited a high proportion of fast-twitch muscle fibres (type II) as shown by myosin ATPase staining. Succinate dehydrogenase activity indicated that these muscles showed a high oxidative capacity, with a staining intensity typical of type I or type II A fibres of limb muscles. 7. The results emphasize the morphological and functional complexity of mammalian extraocular muscles. The combination of very fast contractile properties with high oxidative capacity make these muscles well suited to their role in eye/eyelid movement.
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PMID:Contractile properties and temperature sensitivity of the extraocular muscles, the levator and superior rectus, of the rabbit. 802 38

Fluorescence microscopy has been used to examine the distribution of intracellular calcium concentration ([Ca2+]i) in isolated single fibres from the mouse flexor brevis muscle during fatiguing stimulation. Under control conditions there was a virtually uniform distribution of [Ca2+]i in fura-2 loaded fibres either at rest or during short (0.35 s, 100 Hz) tetani. Fatigue produced by repeated short tetani was accompanied by an early rise, followed by a marked fall, in tetanic [Ca2+]i. Throughout the period of fatiguing stimulation the distribution of [Ca2+]i remained uniform with no detectable gradients observed. In contrast, when fatigue was produced by continuous 100 Hz stimulation, a small gradient of [Ca2+]i developed across the fibre with the [Ca2+]i in the centre of the fibre lower than that at the edge of the fibre. This gradient was apparent after 1.7 s, persisted for at least 11 s and was superimposed on a rise followed by a fall in spatially averaged [Ca2+]i. Reduction of the extracellular Na+ to 50% caused reduced force production and a reduced [Ca2+]i in the centre of the fibre. To assess the contribution of reduced response of the myofibrillar proteins to [Ca2+]i during continuous tetani, the relation between [Ca2+]i and force throughout the long tetanus was compared with that obtained in short, unfatigued tetani. These results show that in long tetani, reduced tetanic [Ca2+]i and reduced responsiveness of the myofibrillar proteins to [Ca2+]i each make important contributions to the decline of force, whereas the gradients of [Ca2+]i make only a small contribution.
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PMID:The distribution of intracellular calcium concentration in isolated single fibres of mouse skeletal muscle during fatiguing stimulation. 749 Dec 91

To investigate anterior tibial muscle fatigability and metabolism in postpoliomyelitis syndrome patients and controls, we performed measurements of force and relaxation time, as well as 31P magnetic resonance spectroscopy, during intermittent, low-intensity, isometric, voluntary exercise. Both maximum voluntary contraction and tetanic force declined significantly more during exercise and subsequently recovered less in patients compared with controls, indicating greater fatigue in patients. However, intracellular pH and phosphocreatine were not different in the two groups at rest or during exercise or recovery, suggesting that the greater fatigue of the patients was not due to an excessive change of metabolites. Moreover, the pre-exercise half-relaxation time of the tetanus was significantly prolonged in patients compared with controls, and the decline in tetanic force during exercise was linearly related to the half-relaxation time of tetanus, suggesting impaired calcium kinetics. Taken together, the findings of increased fatigability, delayed recovery, and prolonged half-relaxation time, without differences in metabolites, suggest that the fatigue in postpoliomyelitis syndrome may be due to impaired activation beyond the muscle membrane.
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PMID:Excessive muscular fatigue in the postpoliomyelitis syndrome. 816 17

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