Recruitment Order of Motor Units in Human Vastus Lateralis Muscle Is Maintained During Fatiguing Contractions

doi:10.1152/jn.00179.2003

Recruitment Order of Motor Units in Human Vastus Lateralis Muscle Is Maintained During Fatiguing Contractions

Alexander Adam and Carlo J. De Luca

NeuroMuscular Research Center and Department of Biomedical Engineering, Boston University, Boston, Massachusetts 02215

Submitted 26 February 2003; accepted in final form 30 June 2003

Motor-unit firing patterns were studied in the vastus lateralismuscle of five healthy young men [21.4 ± 0.9 (SD) yr]during a series of isometric knee extensions performed to exhaustion.Each contraction was held at a constant torque level, set to20% of the maximal voluntary contraction at the beginning ofthe experiment. Electromyographic signals, recorded via a quadrifilarfine wire electrode, were processed with the precision decompositiontechnique to identify the firing times of individual motor units.In repeat experiments, whole-muscle mechanical properties weremeasured during the fatigue protocol using electrical stimulation.The main findings were a monotonic decrease in the recruitmentthreshold of all motor units and the progressive recruitmentof new units, all without a change of the recruitment order.Motor units from the same subject showed a similar time courseof threshold decline, but this decline varied among subjects(mean threshold decrease ranged from 23 to 73%). The mean thresholddecline was linearly correlated (R² $>=$ 0.96) witha decline in the elicited peak tetanic torque. In summary, themaintenance of recruitment order during fatigue strongly supportsthe notion that the observed common recruitment adaptationswere a direct consequence of an increased excitatory drive tothe motor unit pool. It is suggested that the increased centraldrive was necessary to compensate for the loss in force outputfrom motor units whose muscle fibers were actively contracting.We therefore conclude that the control scheme of motor-unitrecruitment remains invariant during fatigue at least in relativelylarge muscles performing submaximal isometric contractions.

Address for reprint requests and other correspondence: C. J. De Luca, NeuroMuscular Research Center, 19 Deerfield St., Boston, MA 02215 (E-mail: cjd{at}bu.edu).

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