Activity of Hindlimb Motor Units During Locomotion in the Conscious Rat

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Activity of Hindlimb Motor Units During Locomotion in the Conscious Rat

Monica Gorassini,¹ Torsten Eken,² David J. Bennett,¹ Ole Kiehn,¹ and Hans Hultborn¹

¹Department of Medical Physiology, Section of Neurophysiology, University of Copenhagen, 2200 Copenhagen N, Denmark; and ²Institute of Neurophysiology, University of Oslo, N-0317 Oslo, Norway

Gorassini, Monica, Torsten Eken, David J. Bennett, Ole Kiehn, and Hans Hultborn. Activity of Hindlimb Motor Units During Locomotion in the Conscious Rat. J. Neurophysiol. 83: 2002-2011, 2000. This paper compares the activity of hindlimb motor units from muscles mainly composed of fast-twitch muscle fibers (medialand lateral gastrocnemius: MG/LG, tibialis anterior: TA) to motorunits from a muscle mainly composed of slow-twitch muscle fibers(soleus: SOL) during unrestrained walking in the conscious rat.Several differences in the activation profiles of motor unitsfrom these two groups of muscles were observed. For example, motorunits from fast muscles (e.g., MG/LG and TA) fired at very highmean frequencies of discharge, ranging from 60 to 100 Hz, andalmost always were recruited with initial doublets or triplets,i.e., initial frequencies $>=$ 100 Hz. In contrast, the majority ofSOL units fired at much lower mean rates of discharge, $approx$ 30 Hz,and had initial frequencies of only 30-60 Hz (i.e., there wereno initial doublets/triplets $>=$ 100 Hz). Thus the presence of initialdoublet or triplets was dependent on the intrinsic propertiesof the motor unit, i.e., faster units were recruited with a doublet/tripletmore often than slower units. Moreover, in contrast to units fromthe slow SOL muscle, the activity of single motor units from thefast MG/LG muscle, especially units recruited midway or near theend of a locomotor burst, was unrelated to the activity of theremainder of the motoneuron pool, as measured by the correspondinggross-electromyographic (EMG) signal. This dissociation of activitywas suggested to arise from a compartmentalized recruitment ofthe MG/LG motoneuron pool by the rhythm-generating networks ofthe spinal cord. In contrast, when comparing the rate modulationof simultaneously recorded motor units within a single LG musclecompartment, the frequency profiles of unit pairs were modulatedin a parallel fashion. This suggested that the parent motoneuronswere responsive to changes in synaptic inputs during unrestrainedwalking, unlike the poor rate modulation that occurs during locomotioninduced from brain stem stimulation. In summary, data from thisstudy provide evidence that the firing behavior of motor unitsduring unrestrained walking is influenced by both the intrinsicproperties of the parent motoneuron and by synaptic inputs fromthe locomotor networks of the spinal cord. In addition, it alsoprovides the first extensive description of motor-unit activityfrom different muscles during unrestrained walking in the consciousrat.

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