Hyperthermia: a failure of the motor cortex and the muscle

doi:10.1113/jphysiol.2004.077115

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Hyperthermia: a failure of the motor cortex and the muscle

Gabrielle Todd¹, Jane E Butler¹, Janet L Taylor¹ and S. C Gandevia¹

¹ Prince of Wales Medical Research Institute and the University of New South Wales, Sydney 2031, Australia

Fatigue is increased during hyperthermia, and torque declinesmore rapidly in sustained maximal voluntary contractions (MVCs).This can be caused by a greater decline in voluntary activationof muscle (i.e. ‘central fatigue’). The presentstudy aimed to localize the site of failure of voluntary driveduring hyperthermia. Seven subjects made brief (2–3 s)and sustained (2 min) MVCs of elbow flexor muscles in two experiments.Core temperature was normal ( $~$ 37°C) in the first experiment,and elevated ( $~$ 38.5°C) by passive heating in the second.During some MVCs, transcranial magnetic stimulation of the motorcortex (TMS) was delivered, and the evoked torque (superimposedtwitch) and EMG responses were measured. During hyperthermia,voluntary torque was reduced by $~$ 2.4% during brief MVCs (P =0.03), and decreased further ( $~$ 12%) during sustained MVCs (P =0.01). The superimposed twitch amplitude in the sustained MVCwas $~$ 50% larger (P = 0.01). Thus, the ability to drivethe muscle maximally in a sustained fashion was decreased, andsome motor cortical output, which could have increased torque,remained untapped by voluntary drive. The additional centralfatigue was not associated with altered motor cortical ‘excitability’,as EMG responses produced by TMS were similar at the two temperatures.However, the peak relaxation rate of muscle increased by $~$ 20%(P = 0.005) during hyperthermia. Hence, faster motor unitfiring rates would be required to produce fusion of force. Theincreased central fatigue during hyperthermia may representa failure of descending voluntary drive to compensate for changedmuscle properties, despite the availability of additional corticaloutput.

(Received 7 October 2004; accepted after revision 20 December 2004; first published online 21 December 2004)
Corresponding author S. C. Gandevia: Prince of Wales Medical Research Institute, Barker Street, Randwick, NSW 2031, Australia. Email: s.gandevia{at}unsw.edu.au

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				S. K. Hunter, J. E. Butler, G. Todd, S. C. Gandevia, and J. L. Taylor Supraspinal fatigue does not explain the sex difference in muscle fatigue of maximal contractions J Appl Physiol, October 1, 2006; 101(4): 1036 - 1044. [Abstract] [Full Text] [PDF]

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