Where electrical stimulation is delivered affects how contractions are generated in the tibialis anterior muscle

Okuma, Yoshino

Unknown Date

No description available.

Neuromuscular electrical stimulation

Motor unit recruitment

Tibialis anterior muscle

Human

Associative plasticity and afferent regulation of corticospinal excitability in uninjured individuals and after incomplete spinal cord injury

Roy, Francois D.

11 1900

Cortical representations are plastic and are allocated based on the proportional use or disuse of a pathway. A steady stream of sensory input maintains the integrity of cortical networks; while in contrast, alterations in afferent activation promote sensorimotor reorganization. After an incomplete spinal cord injury (SCI), damage to the ascending and/or descending pathways induces widespread modifications to the sensorimotor system. Strengthening these spared sensorimotor pathways may be therapeutic by promoting functional recovery after injury. Using a technique called transcranial magnetic stimulation (TMS), we show that the leg motor cortex is facilitated by peripheral sensory inputs via disinhibition and potentiation of excitatory intracortical circuits. Hence, in addition to its crucial role in sensory perception, excitation from peripheral sensory afferents can reinforce muscle activity by engaging, and possibly shaping, the activity of the human motor cortex. After SCI, the amount of excitation produced by afferent stimulation reaching the motor cortex is expectantly reduced and delayed. This reduction of sensory inflow to the motor cortex may contribute to our findings that cortical inhibition is down-regulated after SCI, and this compensation may aid in the recruitment of excitatory networks in the motor cortex as a result of the damage to its output neurons. By repeatedly pairing sensory inputs from a peripheral nerve in the leg with direct cortical activation by TMS, in an intervention called paired associative stimulation, we show that the motor system can be potentiated in both uninjured individuals and after SCI. In the uninjured subjects, we show that in order to produce associative facilitation, the time window required for coincident activation of the motor cortex by TMS and peripheral sensory inputs is not as narrow as previously thought (~100 vs. ~20 ms), likely due to the persistent activation of cortical neurons following activation by TMS. The potential to condition the nervous system with convergent afferent and cortical inputs suggests that paired associative stimulation may serve as a priming tool for motor plasticity and rehabilitation following SCI.

plasticity

spinal cord injury

transcranial magnetic stimulation

peripheral nerve stimulation

motor cortex

sensory input

corticospinal tract

tibialis anterior muscle

intracortical inhibition

motor evoked potential

human

leg

Associative plasticity and afferent regulation of corticospinal excitability in uninjured individuals and after incomplete spinal cord injury

Roy, Francois D.

Unknown Date

No description available.

plasticity

spinal cord injury

transcranial magnetic stimulation

peripheral nerve stimulation

motor cortex

sensory input

corticospinal tract

tibialis anterior muscle

intracortical inhibition

motor evoked potential

human

leg