Somatosensory feedback from the limbs exerts inhibitory influences on central neural drive during whole body endurance exercise
about
Fatigue is a Brain-Derived Emotion that Regulates the Exercise Behavior to Ensure the Protection of Whole Body HomeostasisNeurophysiological Determinants of Theoretical Concepts and Mechanisms Involved in PacingCardiovascular Reflexes Activity and Their Interaction during ExerciseUpdate in the understanding of altitude-induced limitations to performance in team-sport athletesNeural regulation of cardiovascular response to exercise: role of central command and peripheral afferentsSignificance of Group III and IV muscle afferents for the endurance exercising humanAn official American Thoracic Society/European Respiratory Society statement: update on limb muscle dysfunction in chronic obstructive pulmonary disease.Impact of pulmonary system limitations on locomotor muscle fatigue in patients with COPD.The role of active muscle mass in determining the magnitude of peripheral fatigue during dynamic exercise.Group III and IV muscle afferents contribute to ventilatory and cardiovascular response to rhythmic exercise in humans.Time course of the cross-over effect of fatigue on the contralateral muscle after unilateral exerciseAutonomic responses to exercise: group III/IV muscle afferents and fatigue.Tendon vibration attenuates superficial venous vessel response of the resting limb during static arm exercise.Central and Peripheral Fatigue During Resistance Exercise - A Critical Review.Characteristics of maximum performance of pedaling exercise in recumbent and supine positionsIschemic preconditioning reduces hemodynamic response during metaboreflex activationEffects of Six Months Training on Physical Capacity and Metaboreflex Activity in Patients with Multiple Sclerosis.Repeated sprint training in normobaric hypoxiaThe relevance of central command for the neural cardiovascular control of exercise.Corticospinal responses to sustained locomotor exercises: moving beyond single-joint studies of central fatigue.Ventilation and respiratory mechanics.Are type III-IV muscle afferents required for a normal steady-state exercise hyperpnoea in humans?Pathophysiology of human ventilatory control.Role of Ratings of Perceived Exertion during Self-Paced Exercise: What are We Actually Measuring?Neural Contributions to Muscle Fatigue: From the Brain to the Muscle and Back Again.Ensemble Input of Group III/IV Muscle Afferents to CNS: A Limiting Factor of Central Motor Drive During Endurance Exercise from Normoxia to Moderate Hypoxia.The 'sensory tolerance limit': A hypothetical construct determining exercise performance?Recovery of central and peripheral neuromuscular fatigue after exercise.Fatigue is specific to working muscles: no cross-over with single-leg cycling in trained cyclistsFatigue is a pain-the use of novel neurophysiological techniques to understand the fatigue-pain relationship.Task Failure during Exercise to Exhaustion in Normoxia and Hypoxia Is Due to Reduced Muscle Activation Caused by Central Mechanisms While Muscle Metaboreflex Does Not Limit Performance.Opioid-mediated muscle afferents inhibit central motor drive and limit peripheral muscle fatigue development in humans.Spinal opioid receptor-sensitive muscle afferents contribute to the fatigue-induced increase in intracortical inhibition in healthy humans.Isometric knee extensor fatigue following a Wingate test: peripheral and central mechanisms.Influence of locomotor muscle afferent inhibition on the ventilatory response to exercise in heart failure.Cerebral oxygenation and metabolism during exercise following three months of endurance training in healthy overweight males.On the mechanisms that limit oxygen uptake during exercise in acute and chronic hypoxia: role of muscle mass.No reserve in isokinetic cycling power at intolerance during ramp incremental exercise in endurance-trained men.The Role Of Parafacial Neurons In The Control Of Breathing During Exercise.Oscillatory blood pressure response to the onset of cycling exercise in men: role of group III/IV muscle afferents.
P2860
Q21129258-330F503A-2DF0-4719-8AD9-78413C3E98B5Q22252564-054B8E6C-4547-4BDE-B7FB-CA5A10F59D62Q26777820-C1B91B8E-E76D-4F27-9054-28DFE7B7D527Q26822496-C05EECAF-56E5-49DA-AA79-E7097943D7D9Q26828007-839CDCF3-895C-4CF2-867E-410EA2A4066FQ27012787-A2BFD6B1-1D84-4403-8EE2-D99A675A98AEQ33901722-640A00CB-3D1C-401D-9A94-065D11781752Q33994968-8402112F-2725-42EE-8104-776F7F9CCDE5Q34158019-D3EAF054-CA33-48F5-B6D7-8BA6AD4F9B27Q34236432-F7A1B51E-16CE-4DFA-94D9-81A1D93853B4Q34760960-C8B63FD2-54AB-4B42-AF44-7690563BFFFFQ35108132-FF9F75BD-095D-427A-A220-835F03018B42Q36462697-E35ECC56-2B24-4642-BF1B-3FD7DBD794A6Q36490942-12D8677F-C043-4DDF-BB19-9F0F0282844AQ37081021-B1B304FB-7DF6-4296-93D6-79178A3F501DQ37210307-A11BA63E-3934-499B-9ABE-84133FCAF4AEQ37412225-9D184FFB-D8A5-4334-BA5E-C6AFF80A1C31Q37519327-D69918AB-71E6-4EAF-A30D-BB2A6C05B511Q37778935-471CD82C-3F5D-476D-AACB-89EE62E430F1Q38086112-95068F76-5C40-40F0-8B1E-C430BC0E1FF2Q38116832-252F2706-8EB4-4EB9-853A-F522770E43BAQ38133779-2A82D0E7-B5F4-49A1-BAB8-08DF2359246EQ38219952-6BB04278-85FE-4A6D-9351-5B8DEAC006F1Q38520678-E8736572-A731-4731-9482-890E2429B6BDQ38785028-8428914F-6C45-4AA3-9212-4FB90DCBA090Q38876603-2DFB1ED8-16EE-4EBE-91CD-4A53EA2FA472Q39002056-98202FB6-EF72-4B86-B436-E2A26EE0B616Q39033707-D900514B-9E51-44F5-88B5-AF67B41D6B1DQ41977399-82E0C984-C4B6-41AE-AB81-723D7DA7ACAFQ41981643-6E795E57-8779-4C1F-8D2C-DD6BABD83665Q42075426-D222C9E4-B726-41A5-A09F-F7750FE06A97Q44340694-DE910715-19C6-4124-8212-CF9FA28D4513Q44349428-EF6716B8-AB8A-47E0-9EB9-3C276794D107Q44921473-7BD9251A-70CE-41B8-AD52-DD22DFC59EC1Q45354327-87F83B44-13A5-46CB-BE5A-FFB5B41EA423Q45928321-43DB3302-9F46-4BC1-AE0A-E17841F3AB3CQ46220420-2D7B9E06-AEB9-4473-BE1D-5EA5D63FA3BAQ46236479-44760707-721A-4529-8AA2-409852BFCD71Q47660664-6CB11B49-04EB-4778-B1E7-ADC4BB02EC55Q47763594-0FC7FE87-6A68-4BCD-B961-4BA703112548
P2860
Somatosensory feedback from the limbs exerts inhibitory influences on central neural drive during whole body endurance exercise
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 11 September 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Somatosensory feedback from th ...... whole body endurance exercise
@en
Somatosensory feedback from th ...... whole body endurance exercise.
@nl
type
label
Somatosensory feedback from th ...... whole body endurance exercise
@en
Somatosensory feedback from th ...... whole body endurance exercise.
@nl
prefLabel
Somatosensory feedback from th ...... whole body endurance exercise
@en
Somatosensory feedback from th ...... whole body endurance exercise.
@nl
P2093
P2860
P1476
Somatosensory feedback from th ...... whole body endurance exercise
@en
P2093
David F Pegelow
Jerome A Dempsey
Joshua J Sebranek
Lester T Proctor
Markus Amann
Marlowe W Eldridge
P2860
P304
P356
10.1152/JAPPLPHYSIOL.90456.2008
P407
P577
2008-09-11T00:00:00Z