Spinal Cord Injury Clinical Trial
Official title:
Repetitive Transcranial Magnetic Stimulation in Individuals With Spinal Cord Injury: A Pilot Study
This study will investigate how repetitive transcranial magnetic stimulation delivered as a protocol called 'continuous theta-burst stimulation (cTBS)' alters motor output and force control to a muscle in the forearm and touch perception in individuals with chronic, incomplete spinal cord injury. CTBS is a non-invasive technique that involved repetitive delivery of transcranial magnetic stimulation at a frequency of 30 Hz over the arm representation in the primary motor or sensory cortex. The purpose of this study is to determine whether cTBS is an effective intervention to increase motor output to a muscle and increase force control of that muscle and also improve the sense of touch.
Experience and injury-induced neuroplasticity occur in sensory and motor pathways and
cortices. Sensory and motor cortices are interconnected and collectively allow for the
execution of fine, skilled hand control. Of particular interest is the role of somatosensory
cortex in modulating the neural activity within primary motor cortex and ultimately
influencing the control of hand movement. For somatosensory cortex to be effective in guiding
hand movement it must receive an uninterrupted stream of somatosensory afferent input from
skin, muscle and tendons that are active during hand movement. Damage to afferent input
pathways compromise the integrity of necessary somatosensory input and contribute to impaired
motor control of the hand. Following an incomplete spinal cord injury (SCI), damage to the
somatosensory and motor pathways are widespread thereby compromise the integrity of afferent
input that reaches somatosensory cortex [1,2]. Reducing the afferent input to somatosensory
cortex leads to local changes in the concentration of GABA and promotes sensorimotor
reorganization [3].
Transcranial magnetic stimulation has been used in SCI to measure residual corticospinal
function [4], determine changes in the excitability of neural circuitry within the primary
motor cortex [5] and induce short-lasting changes in the excitability of spinal motor neurons
[6]. To date, TMS research in SCI has primarily focused on lower limb function, likely fueled
by the desire to promote functional recovery of locomotion and balance control. However, one
of the main determinants in promoting independent living is the ability to feed and groom
oneself, relying primarily on the control of the upper limb and the dexterous use of the
hand. The proposed research will investigate the ability to increase motor output to muscle
of the hand and upper limb through inducing short-lasting changes within SI and investigate
whether this has functional implication in force production, motor control and touch
perception.
TMS may be delivered as a single, pair or a train of repetitive pulses over a particular body
representation within the primary motor cortex or primary somatosensory cortex. One type of
repetitive TMS is called continuous theta-burst stimulation (cTBS). The present study will
deliver cTBS over the primary motor and primary somatosensory cortices in individual with
chronic SCI. Measurements will be made before and following the cTBS protocol. These measures
include 1) the amplitude of the motor evoked potential (MEP) that is evoked by single pulse
TMS and measured in the forearm muscle, 2) force production whereby participants will be
asked to perform a grip strength task where maximum force production will be measured and
ability to dynamically control force production will be assessed, and 3) touch sensation
whereby participants will partake in a temporal order judgment psychophysical task such that
they must identify which fingertip received the tactile stimulus.
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