The effects of blast-related neurotrauma on aurally-aided visual search while standing and walking

Brungart, Douglas; Kruger, Sarah E.; Kwiatkowski, Tricia Jane; Heil, Thomas A.; Highland, Krista B.; Cohen, Julie; Kokx-Ryan, Melissa J.; Schurman, Jaclyn R.; Zaleski-King, Ashley C.; Zion, Danielle J.

doi:10.1089/neu.2018.5630

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The effects of blast-related neurotrauma on aurally-aided visual search while standing and walking
Citation	Brungart D, Kruger SE, Kwiatkowski TJ, Heil TA, Highland KB, Cohen J, Kokx-Ryan MJ, Schurman JR, Zaleski-King AC, Zion DJ. J. Neurotrauma 2019; 36(16): 2443-2453.
Affiliation	Walter Reed National Military Medical Center, 8395, Audiology and Speech Pathology, Bethesda, Maryland, United States ; danielle.j.zion.civ@mail.mil.
Copyright	(Copyright © 2019, Mary Ann Liebert Publishers)
DOI	10.1089/neu.2018.5630
PMID	30696345
Abstract	Service members (SMs) who have suffered mild traumatic brain injury due to blast exposure (b/TBI) often report post-concussive symptoms consistent with auditory, visual, or vestibular impairments even when they score within the normal range on traditional clinical tests of sensory function. One possible explanation for this discrepancy is that patients who score in the low normal range in more than one sensory modality may be severely impaired in tasks that require multisensory integration. This study evaluated unimodal and multimodal sensory performance in SMs with b/TBI and healthy controls by having them conduct four tasks while walking or standing in an immersive virtual environment: an Auditory Localization task (AL) where they moved a cursor to the perceived location of a sound; a Visual Discrimination task (VD) where they distinguished between two visual targets; an Aurally-Aided Visual Search Task (AAVS) where they used an auditory cue to locate and identify a visual target hidden in a field of visual distractors; and a Visual-Only Visual Search task (VOVS) where they located and identified a visual target in a field of distractors with no auditory cue. The results show the b/TBI and healthy control groups performed equivalently in the AL and VD tasks, but that the b/TBI group responded roughly 15% slower in the AAVS task and 50% slower in the VOVS task. Walking had no effect on performance in the visual-only tasks, but both groups responded faster while walking in the AL and AAVS tasks without any reduction in accuracy. Language: en
Keywords	LOCOMOTOR FUNCTION; SENSORY FUNCTION; TRAUMATIC BRAIN INJURY