Maximal force, voluntary activation and muscle soreness after eccentric damage to human elbow flexor muscles

doi:10.1113/jphysiol.2005.087767

Maximal force, voluntary activation and muscle soreness after eccentric damage to human elbow flexor muscles

O Prasartwuth^1,2, J. L Taylor¹ and S. C Gandevia¹

¹ Prince of Wales Medical Research Institute, University of New South Wales, Sydney, Australia
² School of Biomedical Sciences, Faculty of Health Sciences, The University of Sydney, Sydney, Australia

Muscle damage reduces voluntary force after eccentric exercisebut impaired neural drive to the muscle may also contribute.To determine whether the delayed-onset muscle soreness, whichdevelops $~$ 1 day after exercise, reduces voluntary activationand to identify the possible site for any reduction, voluntaryactivation of elbow flexor muscles was examined with both motorcortex and motor nerve stimulation. We measured maximal voluntaryisometric torque (MVC), twitch torque, muscle soreness and voluntaryactivation in eight subjects before, immediately after, 2 hafter, 1, 2, 4 and 8 days after eccentric exercise. Motor nervestimulation and motor cortex stimulation were used to derivetwitch torques and measures of voluntary activation. Eccentricexercise immediately reduced the MVC by 38 ± 3% (mean± S.D., n = 8). The resting twitch producedby motor nerve stimulation fell by 82 ± 6%, and the estimatedresting twitch by cortical stimulation fell by 47 ± 15%.While voluntary torque recovered after 8 days, both measuresof the resting twitch remained depressed. Muscle tendernessoccurred 1–2 days after exercise, and pain during contractionson days 1–4, but changes in voluntary activation did notfollow this time course. Voluntary activation assessed withnerve stimulation fell 19 ± 6% immediately after exercisebut was not different from control values after 2 days. Voluntaryactivation assessed by motor cortex stimulation was unchangedby eccentric exercise. During MVCs, absolute increments in torqueevoked by nerve and cortical stimulation behaved differently.Those to cortical stimulation decreased whereas those to nervestimulation tended to increase. These findings suggest thatreduced voluntary activation contributes to the early forceloss after eccentric exercise, but that it is not due to musclesoreness. The impairment of voluntary activation to nerve stimulationbut not motor cortical stimulation suggests that the activationdeficit lies in the motor cortex or at a spinal level.

(Received 30 March 2005; accepted after revision 7 June 2005; first published online 9 June 2005)
Corresponding author S. Gandevia: Prince of Wales Medical Research Institute, University of New South Wales, Barker Street, Randwick, Sydney, NSW 2031, Australia. Email: s.gandevia{at}unsw.edu.au

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