Evidence for a supraspinal contribution to human muscle fatigue. - Wikidata - awgldk - TriplyDB

Evidence for a supraspinal contribution to human muscle fatigue.

Evidence for a supraspinal contribution to human muscle fatigue.

http://www.wikidata.org/entity/Q36451511

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Physical and cognitive consequences of fatigue: A review Neuromuscular consequences of an extreme mountain ultra-marathon Muscle fatigue increases the probability of developing hyperalgesia in mice Muscle injections with lidocaine improve resting fatigue and pain in patients with chronic fatigue syndrome.Hip-abductor fatigue and single-leg landing mechanics in women athletes.Time course of the cross-over effect of fatigue on the contralateral muscle after unilateral exercise Prior heat stress effects fatigue recovery of the elbow flexor muscles.Preliminary evidence that anodal transcranial direct current stimulation enhances time to task failure of a sustained submaximal contraction.Neuromuscular fatigue is not different between constant and variable frequency stimulation.Autonomic responses to exercise: group III/IV muscle afferents and fatigue.Cortical and spinal mechanisms of task failure of sustained submaximal fatiguing contractions.Evaluation of central and peripheral fatigue in the quadriceps using fractal dimension and conduction velocity in young females Post-stroke fatigue: a deficit in corticomotor excitability?Cortical Mechanisms of Central Fatigue and Sense of Effort.Exercise-Induced Fatigue and Caffeine Supplementation Affect Psychomotor Performance but Not Covert Visuo-Spatial Attention THE EFFECTS OF ANTICIPATION ON THE MECHANICS OF THE KNEE DURING SINGLE-LEG CUTTING TASKS: A SYSTEMATIC REVIEW.Wearing lower-body compression garment with medium pressure impaired exercise-induced performance decrement during prolonged running.Modulation in voluntary neural drive in relation to muscle soreness Transcranial direct current stimulation in sports training: potential approaches.Cortical and segmental excitability during fatiguing contractions of the soleus muscle in humans A comparison of central aspects of fatigue in submaximal and maximal voluntary contractions.Hyperthermia impairs short-term memory and peripheral motor drive transmission.Adjustments differ among low-threshold motor units during intermittent, isometric contractions.Peripheral fatigue limits endurance exercise via a sensory feedback-mediated reduction in spinal motoneuronal output.Weakening of functional corticomuscular coupling during muscle fatigue.Decreased Activation of Subcortical Brain Areas in the Motor Fatigue State: An fMRI Study.Dynamic training volume: a construct of both time under tension and volume load.The effect of exercise therapy on fatigue in multiple sclerosis.Can neuromuscular fatigue explain running strategies and performance in ultra-marathons?: the flush model.Perspective on neuromuscular factors in poststroke fatigue.Skeletal muscle fatigue.Fatigue in healthy and diseased individuals.The Neuro-Immune Pathophysiology of Central and Peripheral Fatigue in Systemic Immune-Inflammatory and Neuro-Immune Diseases.ASICs Mediate Pain and Inflammation in Musculoskeletal Diseases.The effect of metabolic alkalosis on central and peripheral mechanisms associated with exercise-induced muscle fatigue in humans.Tapping into rhythm generation circuitry in humans during simulated weightlessness conditions.What are the Physiological Mechanisms for Post-Exercise Cold Water Immersion in the Recovery from Prolonged Endurance and Intermittent Exercise?Neural Contributions to Muscle Fatigue: From the Brain to the Muscle and Back Again.Cognitive Functioning and Heat Strain: Performance Responses and Protective Strategies.Eccentric Exercise to Enhance Neuromuscular Control.

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P2860

Evidence for a supraspinal contribution to human muscle fatigue.

http://www.wikidata.org/entity/Q36451511

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2006 nî lūn-bûn

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2006年學術文章

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2006年學術文章

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Evidence for a supraspinal contribution to human muscle fatigue.

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Evidence for a supraspinal contribution to human muscle fatigue.

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Evidence for a supraspinal contribution to human muscle fatigue.

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Evidence for a supraspinal contribution to human muscle fatigue.

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Evidence for a supraspinal contribution to human muscle fatigue.

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Evidence for a supraspinal contribution to human muscle fatigue.

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J.1440-1681.2006.04363.X

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Clinical and Experimental Pharmacology and Physiology

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Evidence for a supraspinal contribution to human muscle fatigue

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Changes in muscle contractile properties and neural control during human muscular fatigue

Stimulation of the human motor cortex through the scalp.

Non-invasive magnetic stimulation of human motor cortex.

Central fatigue and motor cortical excitability during repeated shortening and lengthening actions.

Comparison of activation of corticospinal neurons and spinal motor neurons by magnetic and electrical transcranial stimulation in the lumbosacral cord of the anaesthetized monkey.

A comparison of corticospinal activation by magnetic coil and electrical stimulation of monkey motor cortex.

Effect of fatiguing maximal voluntary contraction on excitatory and inhibitory responses elicited by transcranial magnetic motor cortex stimulation.

Excitation of the corticospinal tract by electromagnetic and electrical stimulation of the scalp in the macaque monkey.

Supraspinal factors in human muscle fatigue: evidence for suboptimal output from the motor cortex.

Changes in motor cortical excitability during human muscle fatigue.

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