4.6 Article

Links between Neuroanatomy and Neurophysiology with Turning Performance in People with Multiple Sclerosis

Journal

SENSORS
Volume 23, Issue 17, Pages -

Publisher

MDPI
DOI: 10.3390/s23177629

Keywords

multiple sclerosis; turning; motor cortex; TMS; MRI; inhibition

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The aim of this study was to investigate the impact of motor cortex thickness and corticospinal excitation and inhibition on turning performance in healthy controls and people with multiple sclerosis. The results showed that people with multiple sclerosis exhibited reduced turning performance and significant cortical thinning of the motor cortex. While no significant reductions in excitatory neurotransmission were observed, a reduction in inhibitory activity was found. The study suggests that both cortical thickness and inhibitory activity are associated with turning performance in people with multiple sclerosis.
Multiple sclerosis is accompanied by decreased mobility and various adaptations affecting neural structure and function. Therefore, the purpose of this project was to understand how motor cortex thickness and corticospinal excitation and inhibition contribute to turning performance in healthy controls and people with multiple sclerosis. In total, 49 participants (23 controls, 26 multiple sclerosis) were included in the final analysis of this study. All participants were instructed to complete a series of turns while wearing wireless inertial sensors. Motor cortex gray matter thickness was measured via magnetic resonance imaging. Corticospinal excitation and inhibition were assessed via transcranial magnetic stimulation and electromyography place on the tibialis anterior muscles bilaterally. People with multiple sclerosis demonstrated reduced turning performance for a variety of turning variables. Further, we observed significant cortical thinning of the motor cortex in the multiple sclerosis group. People with multiple sclerosis demonstrated no significant reductions in excitatory neurotransmission, whereas a reduction in inhibitory activity was observed. Significant correlations were primarily observed in the multiple sclerosis group, demonstrating lateralization to the left hemisphere. The results showed that both cortical thickness and inhibitory activity were associated with turning performance in people with multiple sclerosis and may indicate that people with multiple sclerosis rely on different neural resources to perform dynamic movements typically associated with fall risk.

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