Motor Control in the Human Spinal Cord

Abstract: Features of the human spinal cord motor control are described using two spinal cord injury models: (i) the spinal cord completely separated from brain motor structures by accidental injury; (ii) the spinal cord receiving reduced and altered supraspinal input due to an incomplete lesion. Systematic studies using surface electrode polyelectromyography were carried out to assess skeletal muscle reflex responses to single and repetitve stimulation in a large number of subjects. In complete spinal cord injured subj… Show more

“…Following this point of view, the increased gait symmetry in faster walking simulates gait in healthy subjects. One explanation may be that preserved central pattern generators in the spinal cord, which may operate in a stereotyped manner under residual supraspinal motor control, try to retain the basic structure of gait and preserve central programming as much as possible (31)(32)(33). This hypothesis is supported by our finding that the asymmetry indices were not related to temporal kinetic gait variables, stroke characteristics, personal demographic data or functional scale.…”

Gait reveals bilateral adaptation of motor control in patients with chronic unilateral stroke

“…Following this point of view, the increased gait symmetry in faster walking simulates gait in healthy subjects. One explanation may be that preserved central pattern generators in the spinal cord, which may operate in a stereotyped manner under residual supraspinal motor control, try to retain the basic structure of gait and preserve central programming as much as possible (31)(32)(33). This hypothesis is supported by our finding that the asymmetry indices were not related to temporal kinetic gait variables, stroke characteristics, personal demographic data or functional scale.…”

Gait reveals bilateral adaptation of motor control in patients with chronic unilateral stroke

“…In the rat, the tract runs caudally from cortex through the internal capsule, cerebral peduncle, longitudinal pontine fasciculus, pyramid, pyramidal decussation, and descends in the dorsal fasciculus of the SC (Donatelle, 1977;Nudo and Masterton, 1988;Coleman et al, 1997;Dimitrijevic et al, 2005). Current interest in understanding the organization of this long descending pathway remains high because of its disruption as a consequence of spinal cord injury (SCI).…”

Electrical stimulation of cortex improves corticospinal tract tracing in rat spinal cord using manganese-enhanced MRI

“…In SCI research, a particular pathway of interest is the corticospinal tract (CST) as it is the major long descending output connecting the cerebral cortex with the motor neurons in the SC [1]. Because, many different types of movements are controlled through the fibers of the CST, understanding how this tract adapts to SCI is the focus of current experimental efforts [2,3].…”

Imaging corticospinal tract connectivity in injured rat spinal cord using manganese-enhanced MRI