Abstract
ObjectivePersons with visual impairment (VI) are at greater risk for falls due to irreparable damage to visual sensory input contributing to balance. Targeted training may significantly improve postural stability by strengthening the remaining sensory systems. Here, we evaluate the Ashtanga-based Yoga Therapy (AYT) program as a multi-sensory behavioral intervention to develop postural stability in VI.DesignA randomized, waitlist-controlled, single-blind clinical trialMethodsThe trial was conducted between October 2012 and December 2013. Twenty-one legally blind participants were randomized to an 8-week AYT program (n = 11, mean (SD) age = 55(17)) or waitlist control (n=10, mean (SD) age = 55(10)). AYT subjects convened for one group session at a local yoga studio with an instructor and two individual home-based practice sessions per week for a total of 8 weeks. Subjects completed outcome measures at baseline and post-8 weeks of AYT. The primary outcome, absolute Center of Pressure (COP), was derived from the Wii Balance Board (WBB), a standalone posturography device, in 4 sensory conditions: firm surface, eyes open (EO); firm surface, eyes closed (EC); foam surface, EO; and foam surface, EC. Stabilization Indices (SI) were computed from COP measures to determine the relative visual (SIfirm, SIfoam), somatosensory (SIEO, SIEC) and vestibular (SIV, i.e., FoamEC vs. FirmEO) contributions to balance. This study was not powered to detect between group differences, so significance of pre-post changes was assessed by paired samples t-tests within each group.ResultsGroups were equivalent at baseline (all p > 0.05). In the AYT group, absolute COP significantly increased in the FoamEO (t(8) = -3.66, p = 0.01) and FoamEC (t(8) = -3.90, p = 0.01) conditions. Relative somatosensory SIEO (t(8) = -2.42, p = 0.04) and SIEC (t(8) = -3.96, p = 0.01), and vestibular SIV (t(8) = -2.47, p = 0.04) contributions to balance increased significantly. As expected, no significant changes from EO to EC conditions were found indicating an absence of visual dependency in VI. No significant pre-post changes were observed in the control group (all p > 0.05).ConclusionsThese preliminary results establish the potential for AYT training to develop the remaining somatosensory and vestibular responses used to optimize postural stability in a VI population.Trial Registration www.ClinicalTrials.gov NCT01366677
Highlights
As of 2010, there is an estimated 3 million cases of vision impairment (VI) in the U.S in persons 40 years and older and this number is expected to increase dramatically to approximately 7 million by 2030 due to the growing aging population[1]
In the Ashtanga-based Yoga Therapy (AYT) group, absolute center of pressure (COP) significantly increased in the FoamEO(t(8) = -3.66, p = 0.01) and FoamEC (t(8) = -3.90, p = 0.01) conditions
These preliminary results establish the potential for AYT training to develop the remaining somatosensory and vestibular responses used to optimize postural stability in a VI population
Summary
As of 2010, there is an estimated 3 million cases of vision impairment (VI) in the U.S in persons 40 years and older and this number is expected to increase dramatically to approximately 7 million by 2030 due to the growing aging population[1]. The postural control system consists of the musculoskeletal, sensory, and central nervous systems working together to maintain postural stability[13]. The central nervous system continuously monitors feedback from the active sensory systems to generate corrective musculoskeletal responses that regulate postural control[14,15]. Individuals with uncorrectable vision loss have a damaged visual input stream, contributing to postural instability[20]. Similar instability patterns have been observed for cases in which vision and vestibular systems are impaired[21,23]
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