Improvements in balance control in individuals with PCS detected following vestibular training: A case study

Prangley, Alyssa; Aggerholm, Mathew; Cinelli, Michael

doi:10.1016/j.gaitpost.2017.08.006

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Improvements in balance control in individuals with PCS detected following vestibular training: A case study
Citation	Prangley A, Aggerholm M, Cinelli M. Gait Posture 2017; 58: 229-231.
Affiliation	Department of Kinesiology and Phys. Ed. Wilfrid Laurier University Waterloo, ON, Canada. Electronic address: mcinelli@wlu.ca.
Copyright	(Copyright © 2017, Elsevier Publishing)
DOI	10.1016/j.gaitpost.2017.08.006
PMID	28822327
Abstract	Concussed individuals have been found to experience balance deficits in the anterior-posterior (AP) direction as indicated by greater Center of Pressure (COP) displacement and velocity. One possible reason for this change in balance control could be due to damage to the lateral vestibulospinal tract which sends signals to control posterior muscles, specifically ankle extensors leading to compensatory torques about the ankle. The purpose of the study was to quantify balance assessments in individuals experiencing persistent post-concussion symptoms (PCS) to determine balance control changes following a vestibular training intervention. Participants (N=6,>26days symptomatic), were tested during their first appointment with a registered physiotherapist (PT) and during each follow up appointment. Participants were prescribed balance, visual, and neck strengthening exercises by the PT that were to be completed daily between bi-weekly appointments. Balance assessments were quantified using a Nintendo Wii board to record ground reaction forces. Participants completed 4 balance assessments: 1) Romberg stance eyes open (REO); 2) Romberg stance eyes closed (REC); 3) single leg stance eyes open (SEO); and 4) single leg stance eyes closed (SEC). The balance assessments were conducted on both a firm and compliant surfaces. Significant improvements in balance control were noted in ML/AP displacement and velocity of COP for both SEC and Foam REC conditions, with additional improvements in AP velocity of COP for Foam REC and in ML displacement of COP during Foam SEC. Overall, findings indicate that objectively quantifying balance changes for individuals experiencing persistent PCS allows for a more sensitive measure of balance and detects changes unrecognizable to the naked eye. Copyright © 2017. Published by Elsevier B.V. Language: en
Keywords	Balance; Brain injury; Concussion; Post-concussion syndrome