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

Fatigue--or decrease in force generation--is a reduction of simultaneously attached cross-bridges in the force generating state. Two processes are necessary for the force generation: Firstly Ca++ release from the sarcoplasmic reticulum to the sarcoplasm and the binding of Ca++ by the troponin molecule and secondly the turnover of myosin-actin cross-bridges. These processes require energy in at least three different ATPase reactions and can consequently be inhibited when ATP hydrolysis is decreased, i.e. when ATP content is to low or when the reaction products (ADP, Pi and H+) reach inhibiting levels or when muscle pH has decreased to values inhibiting actomyosin ATPase activity (22). Low pH will also decrease Ca++ release and Ca++ affinity by troponin (23). In isometric contraction the force is well preserved as long as ADP phosphorylation can be provided by both PCr degradation and anaerobic glycolysis. When the PCr store is exhausted the force starts to decline and if muscle activation is maintained the force will continue to decrease along with falling glycolytic rate. ADP phosphorylation rate decreases successively and ATP content falls with an at least transient increase in ADP. The ATP decrease, apart from the minor increase in ADP, is balanced by an equimolar increase in IMP. Lactate accumulation produces an increasing acidity with muscle pH values down to 6.25. Early changes in free ADP content cannot be excluded as reason for the initial decrease in force production followed by more pronounced inhibition of ATPase activity during continued contraction due to both substrate lack and product inhibition together with pH effect on the excitation--contraction mechanism. In dynamic exercise with supramaximum work intensity the relation between fatigue development and metabolism is similar. In prolonged dynamic exercise relying on oxidative metabolism without lactate formation the point of fatigue is reached when the glycogen store is exhausted. Again ADP phosphorylation rate is decreased when the energy substrate is changed from carbohydrate to fat with lower maximum rate of ATP resynthesis.
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PMID:Biochemistry of muscle fatigue. 396 54

The in vitro deproteinized vastus lateralis muscle buffer capacity, carnosine, and histidine levels were examined in 20 men from 4 distinct populations (5 sprinters, 800-m runners; 5 rowers; 5 marathoners; 5 untrained). Needle biopsies were obtained at rest from the vastus lateralis muscle. The buffer capacity was determined in deproteinized homogenates by repeatedly titrating supernatant extracts over the pH range of 7.0-6.0 with 0.01 N HCl. Carnosine and histidine levels were determined on an amino acid AutoAnalyzer. Fast-twitch fiber percentage was determined by staining intensity of myosin adenosinetriphosphatase. High-intensity running performance was assessed on an inclined treadmill run to fatigue (20% incline; 3.5 m X s-1). Significantly (P less than 0.01) elevated buffer capacities, carnosine levels, and high-intensity running performances were demonstrated by the sprinters and rowers, but no significant differences existed between these variables for the marathoners vs. untrained subjects. Low but significant (P less than 0.05) interrelationships were demonstrated between buffer capacity, carnosine levels, and fast-twitch fiber composition. These findings indicate that the sprinters and rowers possess elevated buffering capabilities and carnosine levels compared with marathon runners and untrained subjects.
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PMID:Buffering capacity of deproteinized human vastus lateralis muscle. 396 4

Six subjects performed one-legged dynamic knee-extension. Blood samples were drawn from the femoral artery and vein, and muscle biopsies were obtained from the quadriceps muscle. Leg blood flow was measured by the thermodilution technique, and 3H-inulin was infused for determination of extra- and intracellular muscle water shifts. During the submaximal work load (S) muscle lactate increased, whereas muscle pH remained almost constant; after maximal exercise (M) the values markedly increased for lactate and decreased for pH. Except for a release of lactate from the exercising muscles, K was continuously released throughout S, and this release increased during M. Immediately when the muscles relaxed, the K release was converted to a K re-uptake. The calculated K loss, based on v- a and flow values, agreed with the decrease in muscle K content from 458 mmol/kg dw at rest to 414 mmol/kg dw at exhaustion (P less than 0.05), as analyzed on the muscle biopsies. Muscle water content increased during S mainly because of an increased extracellular H2O, whereas during M the largest increase occurred in intracellular H2O (H2Oi). Because of the simultaneous K loss and H2Oi increase in the exercising muscle the intracellular [K] was calculated to decrease from 165 mM at rest to 129 mM at exhaustion. This decrease and an increase in extracellular [K] from 4.5 mM at rest to greater than 6.0 mM at exhaustion affects the muscle membrane excitability. Muscle fatigue may thus not only be caused by changes within the cell, affecting energy metabolism or actin-myosin reaction, but may be located at the membrane protecting the cell against overload.
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PMID:Water and ion shifts in skeletal muscle of humans with intense dynamic knee extension. 397 Feb 34

The effect of muscle length on susceptibility to fatigue has been examined in human ankle dorsiflexor muscles. The fatiguing procedure consisted of either indirect tetanic stimulation at 20 Hz or maximal voluntary contraction; each procedure lasted 90 s. The amplitude of the evoked muscle compound action potential (M-wave) increased during the first 30 s or so of the tetanic fatiguing procedure and then decreased. The torque developed by the dorsiflexor muscles declined throughout the period of tetanization. A significantly greater reduction in twitch and tetanic torque was found after the fatiguing procedure had been conducted at the optimum muscle length rather than with the muscle in a shortened position. Relaxation after tetanic stimulation was slower after fatigue had been induced at the optimum muscle length. It is concluded that muscle fatigue is related to the number of actin-myosin cross-bridge interactions and is unlikely to be accounted for solely on the basis of changes in the ionic composition of the transverse tubular fluid.
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PMID:Influence of human muscle length on fatigue. 402 Jun 87

The kinds of muscle fibre that are recruited for sustained force production by different vertebrates are described. Although aerobic metabolism always accounts for a significant proportion of their ATP turnover, no single characteristic such as colour, number and form of motor endplates, membrane properties, myosin isotype or contraction speed is diagnostic of such muscles. As mechanical power output increases, there is a tendency for a decrease in fatigue resistance with repetitive usage and an increase in both aerobic capacity and the fraction of energy requirements derived from glycolysis.
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PMID:Sustained force development: specializations and variation among the vertebrates. 403 67

Trabecular preparations from the hog heart right ventricle were "skinned" by treatment with Lubrol WX and glycerol. Ca++ activated isometric contractions were gradedly relaxed by inorganic phosphate (Pi) in the millimolar range or vanadate (Vi) in the micromolar range while tension cost (ATP split/force generated) was increased by a factor of 1.75. From measurements of force, ATPase activity, immediate stiffness and stretch activation, evidence is provided that the mechanical deactivation and the increase in tension cost may result from an acceleration of the myosin cross-bridge cycle, due to a direct interference of Pi and Vi with the chemomechanical energy transformation at the contractile proteins. The possible significance of such a mechanism in cardiac failure or muscle fatigue is discussed.
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PMID:Phosphate and vanadate reduce the efficiency of the chemo-mechanical energy transformation in cardiac muscle. 621 26

Our previous work showed that myosin phosphorylation decreased the ATPase activity of skeletal muscle myofibrils that were lightly fixed with glutaraldehyde. The fixation process prevented sarcomere shortening and destruction of the ordered filament array upon the addition of ATP. We have now extended these results to myofibrils prepared from hearts of rabbits, dogs and rats. Myofibrils were phosphorylated by incubation with myosin light chain kinase, calmodulin and either ATP-gamma s or ATP, for 15 minutes at 25 degrees C. The extent of myosin light chain phosphorylation was 50% to 80%. The ATPase activity of unphosphorylated myofibrils was not altered by reaction with 0.01% glutaraldehyde for 5 minutes at 0 degrees C, and the ATPase activity of unfixed myofibrils was not changed by phosphorylation. However, phosphorylation decreased the ATPase activity of fixed myofibrils by 50%. The effect on myocardial myofibrillar ATPase activity of phosphorylation was similar in the three animal species. These results suggest that in both skeletal and cardiac muscle, myosin phosphorylation decreases the rate of cross-bridge cycling resulting in decreased energy expenditure. It also appears that the effect of myosin light chain phosphorylation on ATPase activity requires an ordered myofilament structure.
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PMID:Myosin phosphorylation decreases the ATPase activity of cardiac myofibrils. 623

The factors which produce closure of the upper airway (UAW) in patients with the sleep apnea syndrome are still poorly understood. A distinction should be made between the factors which induce closure and those which reopen the UAW. Neurologic factors include arousal phenomena, the magnitude and timing of various motor outputs, and postsynaptic inhibition. Mechanical factors include the anatomy of the UAW, especially that above the tongue, the position of the neck and jaw, and mucosal adherence once occlusion has occurred. Muscle factors include the type of myosin isozyme, the forces generated by the large number of UAW muscles and the diaphragm, and the possibility of high-frequency fatigue occurring during occlusion. Hypoxia and acidosis probably play a critical role in making the UAW less stable. Currently, the best method to prevent UAW closure is by nasal CPAP. Patients with life-threatening arrhythmias due to sleep apnea should have a tracheostomy. The role of drugs is controversial. Respiratory or muscle stimulants should probably be avoided; oxygen, medroxyprogesterone, and protriptyline may be useful adjuncts.
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PMID:Clinical conference in pulmonary disease. Factors influencing upper airway closure. 673 71

Fast rabbit skeletal muscles (tibialis anterior and extensor digitorum longus) were stimulated for 2-28 days by electrodes implanted in the vicinity of the peroneal nerve to produce maximal contractions at two different frequency patterns: that occurring naturally in nerves to slow muscles (10 Hz continuously) or three bursts of tetani (40 Hz) per minute, each 5s in duration. Both types of frequency produced muscles more resistant to fatigue during isometric twitch contractions, and led to a prolongation of contraction time greater and more consistent with 10 Hz than with 40 Hz. The twitch/tetanus ration was significantly higher in muscles stimulated at 10 Hz for 3-4 weeks but was not different from controls in muscles stimulated at 40 Hz. Both types of stimulation led to the appearance of myosin light chains characteristic of slow muscles. Muscles stimulated for 4 weeks at 40 Hz developed greater twitch tension per gram, and had significantly smaller cross-sectional area of myofibrils than control muscles. It is concluded that long-term electrical stimulation of fast muscles can affect some muscle contractile properties to resemble those of slow muscles irrespective of frequency of stimulation, provided the total number of stimuli is comparable, the duration of stimulation is long enough (minimum 2 weeks) and all motor units are activated.
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PMID:The effect of different patterns of long-term stimulation on contractile properties and myosin light chains in rabbit fast muscles. 709 18

1. We studied isometric twitch peak force (TPF) and twitch contraction time (TCT) of 249 motor units of the masseter muscle in 41 rabbits after extracellular electrical stimulation of single trigeminal motoneurons in the brain stem. In 41 of these units we determined the amount of tension decrease during a partially fused tetanus (sag) and the ratio between peak tetanic force after 2 min of intermittent tetanic stimulation and initial tension (fatigue index). Muscle fibers of 24 motor units were identified by the glycogen depletion method and characterized in serial sections with monoclonal antibodies against type IID, IIA, "cardiac" alpha, and I isoforms of myosin heavy chain (MHC). 2. The motor units had TCTs ranging from 13 to 32 ms. The majority of the units showed forces < 35 mN. The TPFs were larger and varied more for motor units with short and intermediate TCTs than for units with long TCTs. There is a small but statistically significant negative correlation between the motor unit TPF and the TCT. 3. All units exhibited "sag" and, with the exeption of one, had fatigue indexes > 0.75. The studied rabbit masseter motor units can therefore be classified as fast, fatigue-resistant, except for one that belonged to the FF (fast, fatigable) category. No slow units were represented in the sample pool. Significant correlations were not found either between TCT and the amount of sag or between TCT and the fatigue index. 4. Immunohistochemical analysis showed that the FF unit had fibers containing only IID-MHC. Five other units were found with a single MHC--three with IIA-MHC and two with alpha-MHC. In three other units all fibers showed one combination of two MHCs (1 IIA/IID, 1 IIA/alpha, and 1 alpha/I). The remaining 15 units contained two MHCs spread unevenly over the constituting fibers. Large variations in myosin composition of fibers within one motor unit cast doubts on the presumed dominant neuronal influence on myosin expression in the adult animal. 5. We found a close, statistically significant correlation between the TCT and the estimated MHC content of the units: the TCT was 13 ms for the IID unit, 18 ms for the pure IIA units, and 28 ms for the pure alpha units. Units with two MHCs had intermediate TCTs; units with alpha/I-MHC mixtures had TCTs of 29-30 ms. No pure MHC-I units were identified.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Contraction characteristics and myosin heavy chain composition of rabbit masseter motor units. 753 59

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