review article | Q7318358 |
scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1038418348 |
P356 | DOI | 10.2165/11588760-000000000-00000 |
P698 | PubMed publication ID | 21615190 |
P5875 | ResearchGate publication ID | 51167760 |
P2093 | author name string | Guillaume Y Millet | |
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Central fatigue: the serotonin hypothesis and beyond | Q34569270 | ||
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Which lap is the slowest? An analysis of 32 world mile record performances. | Q34771819 | ||
Mental fatigue impairs physical performance in humans | Q34917837 | ||
Muscle fatigue changes cutaneous suppression of propriospinal drive to human upper limb muscles | Q79545042 | ||
Linear relationship between the perception of effort and the duration of constant load exercise that remains | Q79768980 | ||
Central fatigue affects plantar flexor strength after prolonged running | Q79920347 | ||
Time course of neuromuscular alterations during a prolonged running exercise | Q80414694 | ||
Muscle mechanical characteristics in fatigue and recovery from a marathon race in highly trained runners | Q80695449 | ||
Severe aseptic inflammation caused by long distance running (246 km) does not increase procalcitonin | Q80867209 | ||
Effects of recovery modes after knee extensor muscles eccentric contractions | Q80931024 | ||
Personal best marathon performance is associated with performance in a 24-h run and not anthropometry or training volume | Q81006171 | ||
Resolving fatigue mechanisms determining exercise performance: integrative physiology at its finest! | Q81503870 | ||
Why does knee extensor muscles torque decrease after eccentric-type exercise? | Q81627976 | ||
Effect of acute hypoxia on central fatigue during repeated isometric leg contractions | Q81642309 | ||
Locomotor exercise induces long-lasting impairments in the capacity of the human motor cortex to voluntarily activate knee extensor muscles | Q82840667 | ||
Central and peripheral contributions to neuromuscular fatigue induced by a 24-h treadmill run | Q82956630 | ||
Exertional Rhabdomyolysis during a 246-km continuous running race | Q83995603 | ||
Impact of preinduced quadriceps fatigue on exercise response in chronic obstructive pulmonary disease and healthy subjects | Q84162419 | ||
What limits exercise during high-intensity aerobic exercise? | Q84409044 | ||
Point: Afferent feedback from fatigued locomotor muscles is an important determinant of endurance exercise performance | Q84513261 | ||
Running from Paris to Beijing: biomechanical and physiological consequences | Q84564255 | ||
Physiological and biological factors associated with a 24 h treadmill ultra-marathon performance | Q84832037 | ||
Central fatigue is not the source but can explain performance decrement due to afferent feedback | Q95788625 | ||
Exercise starts and ends in the brain. | Q35186209 | ||
From catastrophe to complexity: a novel model of integrative central neural regulation of effort and fatigue during exercise in humans. | Q35329583 | ||
Evidence for complex system integration and dynamic neural regulation of skeletal muscle recruitment during exercise in humans | Q35330338 | ||
Effect of anticipation during unknown or unexpected exercise duration on rating of perceived exertion, affect, and physiological function | Q35331046 | ||
Alterations of neuromuscular function after prolonged running, cycling and skiing exercises | Q35668010 | ||
Effects of 24 h ultra-marathon on biochemical and hematological parameters | Q36065805 | ||
Training principles and issues for ultra-endurance athletes | Q36133934 | ||
Models to explain fatigue during prolonged endurance cycling. | Q36265952 | ||
Evidence for a supraspinal contribution to human muscle fatigue. | Q36451511 | ||
Ultra-endurance exercise and oxidative damage : implications for cardiovascular health. | Q36463317 | ||
The limits of endurance exercise. | Q36568539 | ||
The psychology of the marathoner : of one mind and many | Q36804359 | ||
Inadequate cerebral oxygen delivery and central fatigue during strenuous exercise | Q36875050 | ||
A comparison of central aspects of fatigue in submaximal and maximal voluntary contractions. | Q37011019 | ||
Skeletal muscle fatigue: cellular mechanisms | Q37056979 | ||
Perception of effort during exercise is independent of afferent feedback from skeletal muscles, heart, and lungs. | Q37165074 | ||
The anticipatory regulation of performance: the physiological basis for pacing strategies and the development of a perception-based model for exercise performance | Q37395582 | ||
Exercise and fatigue | Q37464156 | ||
Changes in Running Speeds in a 100 KM Ultra-Marathon Race | Q37526659 | ||
Sense of effort and other unpleasant sensations during exercise: clarifying concepts and mechanisms. | Q37768281 | ||
Glycogen availability does not affect the TCA cycle or TAN pools during prolonged, fatiguing exercise | Q39125110 | ||
Relationship between gastro-intestinal complaints and endotoxaemia, cytokine release and the acute-phase reaction during and after a long-distance triathlon in highly trained men. | Q39225093 | ||
The limits to exercise performance and the future of fatigue research | Q39923581 | ||
Psychologic characterization of the elite distance runner | Q40510796 | ||
Hyperthermia and central fatigue during prolonged exercise in humans | Q40597793 | ||
The influence of sensory cues on the perception of exertion during exercise and central regulation of exercise performance. | Q40676097 | ||
Possible mechanisms of central nervous system fatigue during exercise | Q41318783 | ||
Reduced muscle activation during exercise related to brain oxygenation and metabolism in humans | Q43093188 | ||
Influence of acetaminophen on performance during time trial cycling. | Q43243212 | ||
How long does the protective effect on eccentric exercise-induced muscle damage last? | Q43723659 | ||
Membrane leakage and increased content of Na+ -K+ pumps and Ca2+ in human muscle after a 100-km run. | Q43964412 | ||
Effect of naloxone on perceived exertion and exercise capacity during maximal cycle ergometry | Q44187540 | ||
Opioid-mediated muscle afferents inhibit central motor drive and limit peripheral muscle fatigue development in humans. | Q44340694 | ||
CNS fatigue and prolonged exercise: effect of glucose supplementation | Q44389007 | ||
Measurement of voluntary activation of fresh and fatigued human muscles using transcranial magnetic stimulation. | Q44543859 | ||
Ratings of Perceived Exertion Throughout an Ultramarathon during Carbohydrate Ingestion | Q44646150 | ||
Carbohydrate sensing in the human mouth: effects on exercise performance and brain activity. | Q46112146 | ||
Exercising with reserve: evidence that the central nervous system regulates prolonged exercise performance | Q46217459 | ||
The rate of heat storage mediates an anticipatory reduction in exercise intensity during cycling at a fixed rating of perceived exertion | Q46343650 | ||
Pain perception after running a 100-mile ultramarathon | Q46463963 | ||
Clinical biochemical evaluation of central fatigue with 24-hour continuous exercise | Q46762635 | ||
Locomotor muscle fatigue increases cardiorespiratory responses and reduces performance during intense cycling exercise independently from metabolic stress. | Q46815774 | ||
Athletic performance and serial weight changes during 12- and 24-hour ultra-marathons | Q47242684 | ||
Neuromuscular fatigue after a ski skating marathon | Q47646567 | ||
Effects of prolonged strenuous endurance exercise on plasma myosin heavy chain fragments and other muscular proteins. Cycling vs running. | Q47934558 | ||
The limit to exercise tolerance in humans: mind over muscle? | Q48223861 | ||
Severity of arterial hypoxaemia affects the relative contributions of peripheral muscle fatigue to exercise performance in healthy humans | Q48264940 | ||
Fatigue--from muscle to brain or vice versa? | Q48318393 | ||
Corticomotor excitability contributes to neuromuscular fatigue following marathon running in man. | Q48372889 | ||
One night of sleep deprivation decreases treadmill endurance performance. | Q48396993 | ||
Voluntary activation of human knee extensors measured using transcranial magnetic stimulation | Q48548914 | ||
The rating of perceived exertion during competitive running scales with time | Q48921295 | ||
Effects of sleep deprivation on performance during submaximal and maximal exercise | Q49010917 | ||
Sleep deprivation, physical fatigue, and the perception of exercise intensity | Q49034147 | ||
Historical analysis of participation in 161 km ultramarathons in North America | Q49098853 | ||
Supraspinal factors in human muscle fatigue: evidence for suboptimal output from the motor cortex | Q49162786 | ||
Vitamin and mineral supplementation and neuromuscular recovery after a running race | Q50090161 | ||
Age, sex, and finish time as determinants of pacing in the marathon. | Q51559611 | ||
Assessment of low-frequency fatigue with two methods of electrical stimulation. | Q51645984 | ||
Concept of an extracellular regulation of muscular metabolic rate during heavy exercise in humans by psychophysiological feedback. | Q52201506 | ||
The influence of weekly training distance on fractional utilization of maximum aerobic capacity in marathon and ultramarathon runners. | Q52653076 | ||
Effect of sleep deprivation on tolerance of prolonged exercise. | Q54541670 | ||
Effect of ambient temperature on marathon pacing is dependent on runner ability | Q57122153 | ||
Respiratory effort sensation during exercise with induced expiratory-flow limitation in healthy humans | Q58809018 | ||
Freaks of nature? | Q59054857 | ||
The Relationship Between Rating of Perceived Exertion and Muscle Activity During Exhaustive Constant-Load Cycling | Q59276704 | ||
Evidence that interleukin-6 is produced in human skeletal muscle during prolonged running | Q59326390 | ||
The effect of sustained low-intensity contractions on supraspinal fatigue in human elbow flexor muscles | Q59329702 | ||
Physiological responses to prolonged exercise in ultramarathon athletes | Q69592686 | ||
Influence of ultra-long-term fatigue on the oxygen cost of two types of locomotion | Q73346132 | ||
Alteration of neuromuscular function after a prolonged road cycling race | Q73379115 | ||
Sarcoplasmic reticulum function and muscle contractile character following fatiguing exercise in humans | Q73620413 | ||
The effects of a prolonged running exercise on strength characteristics | Q73895635 | ||
The effects of muscular fatigue on the coordination of a multijoint movement in human | Q77308448 | ||
Alterations of neuromuscular function after an ultramarathon | Q77504983 | ||
Neuromuscular fatigue during a long-duration cycling exercise | Q77768471 | ||
Mechanisms contributing to knee extensor strength loss after prolonged running exercise | Q78403992 | ||
Failed excitability of spinal motoneurons induced by prolonged running exercise | Q79340907 | ||
Biomarkers of muscle and cartilage damage and inflammation during a 200 km run | Q79501981 | ||
P433 | issue | 6 | |
P304 | page(s) | 489-506 | |
P577 | publication date | 2011-06-01 | |
P1433 | published in | Sports Medicine | Q15762097 |
P1476 | title | Can neuromuscular fatigue explain running strategies and performance in ultra-marathons?: the flush model | |
P478 | volume | 41 |
Q34804581 | Alterations of Neuromuscular Function after the World's Most Challenging Mountain Ultra-Marathon |
Q36933562 | Alterations of Vertical Jump Mechanics after a Half-Marathon Mountain Running Race |
Q41685231 | Assessment of Differences in the Anthropometric, Physiological and Training Characteristics of Finishers and Non-finishers in a Tropical 161-km Ultra-marathon |
Q33607260 | Calf Compression Sleeves Change Biomechanics but Not Performance and Physiological Responses in Trail Running. |
Q35942972 | Can Pacing Be Regulated by Post-Activation Potentiation? Insights from a Self-Paced 30 km Trial in Half-Marathon Runners. |
Q57032213 | Changes in Pain and Nutritional Intake Modulate Ultra-Running Performance: A Case Report |
Q35106759 | Changes in voluntary activation assessed by transcranial magnetic stimulation during prolonged cycling exercise |
Q58808965 | Comparison of neuromuscular adjustments associated with sustained isometric contractions of four different muscle groups |
Q98156792 | Different race pacing strategies among runners covering the 2017 Berlin Marathon under 3 hours and 30 minutes |
Q42363827 | Editorial: Regulation of Endurance Performance: New Frontiers. |
Q92711898 | Effects of Acute Normobaric Hypoxia on Non-linear Dynamics of Cardiac Autonomic Activity During Constant Workload Cycling Exercise |
Q57540938 | Effects of a 5-h hilly running on ankle plantar and dorsal flexor force and fatigability |
Q28387777 | Effects of extreme-duration heavy load carriage on neuromuscular function and locomotion: a military-based study |
Q48299537 | Effects of knowing the task duration on players' pacing patterns during soccer small-sided games |
Q48227742 | Endurance capacity and neuromuscular fatigue following high- vs moderate-intensity endurance training: A randomized trial. |
Q34166959 | Factors affecting the regulation of pacing: current perspectives |
Q28075666 | Fatigue Induced by Physical and Mental Exertion Increases Perception of Effort and Impairs Subsequent Endurance Performance |
Q38908128 | Fatigue associated with prolonged graded running |
Q86727806 | Improved tolerance of peripheral fatigue by the central nervous system after endurance training |
Q53211811 | Interaction between environmental temperature and hypoxia on central and peripheral fatigue during high-intensity dynamic knee extension. |
Q51809904 | Locomotor muscle fatigue is not critically regulated after prior upper body exercise. |
Q90340996 | Maturation-related changes in the development and etiology of neuromuscular fatigue |
Q46721297 | Medical services at ultra-endurance foot races in remote environments: medical issues and consensus guidelines. |
Q26825100 | Neural correlates of motor vigour and motor urgency during exercise |
Q89543286 | Neuromuscular and perceptual responses to moderate-intensity incline, level and decline treadmill exercise |
Q28477233 | Neuromuscular consequences of an extreme mountain ultra-marathon |
Q37512152 | No Critical Peripheral Fatigue Threshold during Intermittent Isometric Time to Task Failure Test with the Knee Extensors |
Q37265437 | Original Research: Central and peripheral quadriceps fatigue in young and middle-aged untrained and endurance-trained men: A comparative study |
Q48105621 | Pacing behaviour of players in team sports: Influence of match status manipulation and task duration knowledge |
Q37383274 | Pacing during an ultramarathon running event in hilly terrain. |
Q42320682 | Passion and Pacing in Endurance Performance |
Q56885484 | Perceived Fatigability: Utility of a Three-Dimensional Dynamical Systems Framework to Better Understand the Psychophysiological Regulation of Goal-Directed Exercise Behaviour |
Q37535311 | Periodization of Carbohydrate Intake: Short-Term Effect on Performance |
Q50243529 | Physiological and Biomechanical Mechanisms of Distance Specific Human Running Performance |
Q55207247 | Physiology and Pathophysiology in Ultra-Marathon Running. |
Q92698001 | Prior Band-Resisted Squat Jumps Improves Running and Neuromuscular Performance in Middle-Distance Runners |
Q38520678 | Role of Ratings of Perceived Exertion during Self-Paced Exercise: What are We Actually Measuring? |
Q55224258 | Sleep habits and strategies of ultramarathon runners. |
Q98464941 | The Advantage of Supine and Standing Heart Rate Variability Analysis to Assess Training Status and Performance in a Walking Ultramarathon |
Q35874819 | The Dynamics of Speed Selection and Psycho-Physiological Load during a Mountain Ultramarathon |
Q52357924 | The Psychophysiological Determinants of Pacing Behaviour and Performance During Prolonged Endurance Exercise: A Performance Level and Competition Outcome Comparison. |
Q85643913 | The development of peripheral fatigue and short-term recovery during self-paced high-intensity exercise |
Q41592165 | The effect of fatigue on kicking velocity in soccer players. |
Q54652599 | The effect of muscle fatigue on stimulus intensity requirements for central and peripheral fatigue quantification. |
Q30355300 | The evolutionary significance of fatigue. |
Q57826899 | The influence of different exercise intensities on kicking accuracy and velocity in soccer players |
Q34343704 | Ultramarathon is an outstanding model for the study of adaptive responses to extreme load and stress |
Q91742102 | What are the Limiting Factors During an Ultra-Marathon? A Systematic Review of the Scientific Literature |
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