A Comparison of Central Aspects of Fatigue in Submaximal and Maximal Voluntary Contractions

doi:10.1152/japplphysiol.01053.2007

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A Comparison of Central Aspects of Fatigue in Submaximal and Maximal Voluntary Contractions

Janet L. Taylor¹^* and Simon C. Gandevia²

¹ Prince of Wales Medical Research Institute, Barker St, Randwick, New South Wales, 2031, Australia; The University of New South Wales, Sydney, New South Wales, Australia
² Prince of Wales Medical Research Institute, Barker St, Randwick, New South Wales, 2031, Australia; Sydney, New South Wales, Australia; The University of New South Wales, Sydney, New South Wales, Australia

^* To whom correspondence should be addressed. E-mail: jl.taylor{at}unsw.edu.au.

Magnetic and electrical stimulation at different levels of theneuraxis shows that supraspinal and spinal factors limit forceproduction in maximal isometric efforts ('central fatigue'). In sustained maximal contractions, motoneurons become lessresponsive to synaptic input and descending drive becomes suboptimal. Exercise-induced activity in group III and IV muscle afferentsacts supraspinally to limit motor cortical output but does notalter motor cortical responses to transcranial magnetic stimulation. 'Central' and "peripheral" fatigue develop more slowly duringsubmaximal exercise. In sustained submaximal contractions,central fatigue occurs in brief maximal efforts even with aweak ongoing contraction (<15% maximum). The presence ofcentral fatigue when much of the available motor pathway isnot engaged suggests that afferent inputs contribute to reducevoluntary activation. Small-diameter muscle afferents are likelyto be activated by local activity even in sustained weak contractions. During such contractions, it is difficult to measure centralfatigue which is best demonstrated in maximal efforts. To showcentral fatigue in submaximal contractions, changes in motorunit firing and force output need to be characterized simultaneously. Increasing central drive recruits new motor units but the waythis occurs is likely to depend on properties of the motoneuronsand the inputs they receive in the task. It is unclear whethersuch factors impair force production for a set level of descendingdrive and thus represent 'central' fatigue. The best indicationthat central fatigue is important in submaximal tasks is thedisproportionate increase in subjects' perceived effort whenmaintaining a low target force.

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