Motor unit recruitment strategies investigated by surface EMG variables

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Motor unit recruitment strategies investigated by surface EMG variables

Dario Farina¹^,², Mauro Fosci¹, and Roberto Merletti¹

¹ Centro di Bioingegneria, Department of Electronics, Politecnico di Torino, Torino 10129, Italy; and ² Departement d'Automatique et Informatique Appliquée, Ecole Centrale de Nantes, F-44321 Nantes, France

During isometric contractions of increasing strength, motor units (MUs) are recruited by the central nervous system in anorderly manner starting with the smallest, with muscle fibersthat usually show the lowest conduction velocity (CV). Theorypredicts that the higher the velocity of propagation of the actionpotential, the higher the power at high frequencies of the detectedsurface signal. These considerations suggest that the power spectraldensity of the surface detected electromyogram (EMG) signal maygive indications about the MU recruitment process. The purposeof this paper is to investigate the potential and limitationsof spectral analysis of the surface EMG signal as a techniquefor the investigation of muscle force control. The study is basedon a simulation approach and on an experimental investigationof the properties of surface EMG signals detected from the bicepsbrachii during isometric linearly increasing torque contractions.Both simulation and experimental data indicate that volume conductorproperties play an important role as confounding factors thatmay mask any relation between EMG spectral variables and estimatedCV as a size principle parameter during ramp contractions. Thecorrelation between spectral variables and CV is thus significantlylower when the MU pool is not stable than during constant-torqueisometric contractions. Our results do not support the establishmentof a general relationship between spectral EMG variables and torqueor recruitmentstrategy.

surface electromyography; rate coding; muscle fiber conduction velocity; mean and median power spectral frequency

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