Effective corticospinal excitability neuromodulation elicited by short-duration concurrent and synchronized associative cortical and neuromuscular stimulations

Optimal parameters of combined repetitive associative transcranial magnetic stimulation (rTMS) and neuro-muscular electrical stimulation (NMES) for neuromodulation of central nervous system (CNS) excitability are not well understood. We examined corticospinal excitability after short-duration concurrent and synchronized associative stimulation applied using primary motor cortex rTMS and upper-limb NMES. Intermittent theta burst stimulation (iTBS) was delivered with burst at 50 Hz and repeated at 5 Hz over the course of 192 s as an established cortical facilitation rTMS protocol. NMES was applied to activate the extensor carpi radialis muscle over the same 192 s duration. Four interventions were compared: (1) iTBS with concurrent and synchronized 50 Hz NMES; (2) iTBS with concurrent and synchronized 5 Hz NMES; (3) iTBS with concurrent and asynchronized 41 Hz NMES; (4) iTBS with 5 s delayed and synchronized 50 Hz NMES. Single-pulse motor evoked potential (MEP) responses elicited by transcranial magnetic stimulation of the primary motor cortex and maximum motor responses (Mmax) elicited by radial nerve stimulation were compared before and for 30 min after each inter-vention. Our results showed that corticospinal excitability (MEP/Mmax) was only facilitated after the iTBS and concurrent 50 Hz NMES intervention, but the responses returned to baseline within 10 min of completing the intervention. This result demonstrates that short-duration concurrent and synchronized stimulation could be applied to effectively neuromodulate corticospinal excitability. Therefore, repetitive synchronized associative stimulation of the primary motor cortical networks and sensorimotor peripheral circuits may be enhanced using synchronized 50 Hz frequency of activation during concurrent stimulation.

Automated summary

This study examined the optimal parameters for neuromodulation using combined rTMS and NMES. The results showed that corticospinal excitability was increased after the intervention with concurrent 50 Hz NMES and iTBS, but returned to baseline within 10 minutes. Short-duration concurrent and synchronized stimulation can effectively modulate corticospinal excitability.