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Y. Jammes, E. Balzamo (1992)
Changes in afferent and efferent phrenic activities with electrically induced diaphragmatic fatigue.Journal of applied physiology, 73 3
H. Adriaensen, J. Gybels, H. Handwerker, J. Hees (1983)
Response properties of thin myelinated (A-delta) fibers in human skin nerves.Journal of neurophysiology, 49 1
(1868)
Zur muskelphysiologie und physik
T. Shiojiri, M. Shibasaki, K. Aoki, N. Kondo, S. Koga (1997)
Effects of reduced muscle temperature on the oxygen uptake kinetics at the start of exercise.Acta physiologica Scandinavica, 159 4
E. Dousset, J. Steinberg, N. Balon, Y. Jammes (2001)
Effects of acute hypoxemia on force and surface EMG during sustained handgripMuscle & Nerve, 24
C. Bolton, G. Sawa, K. Carter (1981)
The effects of temperature on human compound action potentials.Journal of Neurology, Neurosurgery & Psychiatry, 44
L. Gerilovsky, N. Radicheva, A. Gydikov (1988)
Dependence between intra- and extracellular action potentials of isolated frog muscle fibres at different temperatures.Acta physiologica et pharmacologica Bulgarica, 14 4
S. Mense (1996)
Group III and IV receptors in skeletal muscle: are they specific or polymodal?Progress in brain research, 113
J. Woods, F. Furbush, B. Bigland-ritchie (1987)
Evidence for a fatigue-induced reflex inhibition of motoneuron firing rates.Journal of neurophysiology, 58 1
C. Davies, I. Mecrow, M. White (2006)
Contractile properties of the human triceps surae with some observations on the effects of temperature and exerciseEuropean Journal of Applied Physiology and Occupational Physiology, 49
A. Meigal, J. Oksa, L. Gerasimova, E. Hohtola, Y. Lupandin, H. Rintamäki (2003)
Force control of isometric elbow flexion with visual feedback in cold with and without shivering.Aviation, space, and environmental medicine, 74 8
H. Kranz, A. Williams, J. Cassell, D. Caddy, R. Silberstein (1983)
Factors determining the frequency content of the electromyogram.Journal of applied physiology: respiratory, environmental and exercise physiology, 55 2
Mario Campero, Jordi Serra, J. Ochoa (1996)
C‐polymodal nociceptors activated by noxious low temperature in human skin.The Journal of Physiology, 497
M. Faucher, J. Steinberg, D. Barbier, F. Hug, Y. Jammes (2004)
Influence of chronic hypoxemia on peripheral muscle function and oxidative stress in humansClinical Physiology and Functional Imaging, 24
S. Gandevia (2001)
Spinal and supraspinal factors in human muscle fatigue.Physiological reviews, 81 4
Martin Bertram, T. Nishida, M. Minieka, I. Janssen, Charles Levy (1995)
Effects of temperature on motor unit action potentials during isometric contractionMuscle & Nerve, 18
J. Darques, Y. Jammes (1997)
Fatigue-induced changes in group IV muscle afferent activity: differences between high- and low-frequency electrically induced fatiguesBrain Research, 750
M. Iwamoto, Y. Majima, H. Naruse, K. Iriyama (1992)
Generation of Maxwell displacement current from spread monolayers containing azobenzeneJournal of Applied Physics, 72
C. Marsden, Meadows Jc, Merton Pa (1983)
"Muscular wisdom" that minimizes fatigue during prolonged effort in man: peak rates of motoneuron discharge and slowing of discharge during fatigue.Advances in neurology, 39
A. Meigal, J. Oksa, E. Hohtola, Y. Lupandin, H. Rintamäki (1998)
Influence of cold shivering on fine motor control in the upper limb.Acta physiologica Scandinavica, 163 1
P. Decherchi, Darques Jl, Y. Jammes (1998)
Modifications of afferent activities from Tibialis anterior muscle in rat by tendon vibrations, increase of interstitial potassium or lactate concentration and electrically-induced fatigue.Journal of the peripheral nervous system : JPNS, 3 4
R. Edwards, R. Harris, E. Hultman, L. Kaijser, D. Koh, L. Nordesjö (1972)
Effect of temperature on muscle energy metabolism and endurance during successive isometric contractions, sustained to fatigue, of the quadriceps muscle in manThe Journal of Physiology, 220
D. Bendahan, M. Badier, Yves Jammes, S. Confort-Gouny, A. Salvan, C. Guillot, P. Cozzone (1998)
Metabolic and myoelectrical effects of acute hypoxaemia during isometric contraction of forearm muscles in humans: a combined 31P-magnetic resonance spectroscopy-surface electromyogram (MRS-SEMG) study.Clinical science, 94 3
G. Sjøgaard (1990)
Exercise-induced muscle fatigue: the significance of potassium.Acta physiologica Scandinavica. Supplementum, 593
M. Schieppati, A. Nardone (1997)
Medium‐Latency Stretch Reflexes of Foot and Leg Muscles Analysed by Cooling the Lower Limb in Standing HumansThe Journal of Physiology, 503
R. Enoka, D. Stuart (1992)
Neurobiology of muscle fatigue.Journal of applied physiology, 72 5
E. Blomstrand, B. Essén‐Gustavsson (1987)
Influence of reduced muscle temperature on metabolism in type I and type II human muscle fibres during intensive exercise.Acta physiologica Scandinavica, 131 4
B. Bigland-ritchie, N. Dawson, R. Johansson, O. Lippold (1986)
Reflex origin for the slowing of motoneurone firing rates in fatigue of human voluntary contractions.The Journal of Physiology, 379
Friiz Buchthal, P. Pinelli, P. Rosenfalck (1954)
Action potential parameters in normal human muscle and their physiological determinants.Acta physiologica Scandinavica, 32 2-3
F. Caquelard, Henri Burnet, F. Tagliarini, Emmanuel Cauchy, J. Richalet, Yves Jammes (2000)
Effects of prolonged hypobaric hypoxia on human skeletal muscle function and electromyographic events.Clinical science, 98 3
F. Stulen, C. Luca (1981)
Frequency Parameters of the Myoelectric Signal as a Measure of Muscle Conduction VelocityIEEE Transactions on Biomedical Engineering, BME-28
Neville Goodman
Du mouvement dans les fonctions de la vieJournal of Anatomy, 2
R. Kadefors, E. Kaiser, I. Petersén (1968)
Dynamic spectrum analysis of myo-potentials and with special reference to muscle fatigue.Electromyography, 8 1
M. Badier, C. Guillot, F. Lagier‐Tessonnier, Y. Jammes (1994)
EMG changes in respiratory and skeletal muscles during isometric contraction under normoxic, hypoxemic, or ischemic conditionsMuscle & Nerve, 17
T. Graven-Nielsen, Lars Arendt-Nielsen, Siegfried Mense (2002)
Thermosensitivity of muscle: high‐intensity thermal stimulation of muscle tissue induces muscle pain in humansThe Journal of Physiology, 540
S. Arbogast, T. Vassilakopoulos, J. Darques, Jean-Baptiste Duvauchelle, Y. Jammes (2000)
Influence of oxygen supply on activation of group IV muscle afferents after low‐frequency muscle stimulationMuscle & Nerve, 23
S. Garland (1991)
Role of small diameter afferents in reflex inhibition during human muscle fatigue.The Journal of Physiology, 435
M. Holewijn, R. Heus (2004)
Effects of temperature on electromyogram and muscle functionEuropean Journal of Applied Physiology and Occupational Physiology, 65
D. Dill, D. Costill, I. still (1974)
Calculation of percentage changes in volumes of blood, plasma, and red cells in dehydration.Journal of applied physiology, 37 2
B. Bigland-ritchie, C. Thomas, C. Rice, J. Howarth, J. Woods (1992)
Muscle temperature, contractile speed, and motoneuron firing rates during human voluntary contractions.Journal of applied physiology, 73 6
J. Oksa, H. Rintamäki, S. Rissanen (1997)
Muscle performance and electromyogram activity of the lower leg muscles with different levels of cold exposureEuropean Journal of Applied Physiology and Occupational Physiology, 75
E. Dousset, P. Decherchi, L. Grélot, Y. Jammes (2001)
Effects of chronic hypoxemia on the afferent nerve activities from skeletal muscle.American journal of respiratory and critical care medicine, 164 8 Pt 1
Margaret Johnson, J. Polgár, D. Weightman, D. Appleton (1973)
Data on the distribution of fibre types in thirty-six human muscles. An autopsy study.Journal of the neurological sciences, 18 1
The consequences of a prolonged total body immersion in cold water on the muscle function have not been documented yet, and they are the object of this French Navy research program. Ten elite divers were totally immerged and stayed immobile during 6 h in cold (18 and 10°C) water. We measured the maximal voluntary leg extension (maximal voluntary contraction, MVC) and evoked compound muscle potential (M wave) in vastus lateralis and soleus muscles at rest, after a submaximal (60% MVC) isometric extension allowing the measurement of the endurance time (Tlim). The power spectrum of surface electromyograms (EMG) was computed during 60% MVCs. MVCs and 60% MVC maneuvers were repeated four times during the immersion. Data were compared with those obtained in a control group studied in dry air condition during a 6-h session. Total body cooling did not affect MVC nor Tlim. The M wave duration increased in the coolest muscle (soleus), but only at 10°C at rest. There were no further fatigue-induced M wave alterations in both muscles. During 60% the MVCs, a time-dependant increase in the leftward shift of the EMG spectrum occurred at the two temperatures. These EMG changes were absent in the control group of subjects studied in dry air. The plasma lactate concentration was elevated throughout the 18 and mostly the 10°C immersion conditions. Throughout the 18°C immersion study, the resting potassium level did not significantly vary, whereas at 10°C, a significant potassium increase occurred soon and persisted throughout the study. Thus, total body immersion in cold water did not affect the global contractile properties of leg muscles during static efforts but elicited significant alterations in electromyographic events which may be related to the variations of interstitial fluid composition.
Pflügers Archiv European Journal of Physiologyl of Physiology – Springer Journals
Published: Nov 19, 2005
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