Our body’s sense of balance relies on the vestibular system, which is responsible for sensing motion and spatial orientation. As we age, our balance tends to decline, leading to a higher risk of falls. Researchers studied how different elements of the vestibular system contribute to this age-related decline in balance. By measuring vestibular perceptual thresholds and conducting balance assessments, they discovered a strong association between roll tilt thresholds (a measure of noise in the vestibular system) and postural instability during specific balance conditions. In particular, the noise in the centrally integrated canal-otolith signal seemed to be a major factor contributing to subclinical postural instability in older adults. These findings suggest that roll tilt thresholds could potentially serve as a metric for detecting vestibular mediated balance dysfunction and fall risk. Further research is needed to confirm these results and explore potential interventions to improve balance in older adults.

BackgroundBalance assessments that intentionally alter the reliability of visual and proprioceptive feedback (e.g., standing on foam with eyes closed) have become a standard approach for identifying vestibular mediated balance dysfunction in older adults. However, such assessments cannot discern which specific element of the vestibular system (e.g., semicircular canal, otolith, or combined canal-otolith) underlies the observed age-related changes in balance performance. The present study was designed to determine the associations between specific sources of vestibular noise and quantitative measures of quiet stance postural control measured during standard “vestibular” balance conditions.MethodsA group of 52 asymptomatic adults (53.21 ± 19.7, 21 to 84 years) without a history of vestibular or neurologic disorders volunteered for this study. We measured a battery of five vestibular perceptual thresholds that assay vestibular noise with predominant contributions from the vertical canals, lateral canals, utricles, saccules, and the centrally integrated canal-otolith signal. In addition, participants completed two standard balance assessments that were each designed to prioritize the use of vestibular cues for quiet stance postural control—eyes closed on foam (Condition 4 of the Modified Romberg Balance Test) and eyes closed, on a sway referenced support surface (Condition 5 of the Sensory Organization Test).ResultsIn age adjusted models, we found strong positive associations between roll tilt vestibular thresholds, a measure of noise in the centrally integrated canal-otolith signal, and the root mean square distance (RMSD) of the anteroposterior and mediolateral center of pressure (CoP) captured during eyes closed stance on a sway referenced support surface. The strength of the association between roll tilt thresholds and the RMSD of the CoP was between 3-times and 30-times larger than the association between postural sway and each of the other vestibular thresholds measured.ConclusionWe posit that noise in the centrally estimated canal-otolith “tilt” signal may be the primary driver of the subclinical postural instability experienced by older adults during the “vestibular” conditions of balance assessments. Additional testing in adults with clinical balance impairment are needed to identify if roll tilt thresholds may also serve as a surrogate metric by which to detect vestibular mediated balance dysfunction and/or fall risk.

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