Loss of Peripheral Sensory Function Explains Much of the Increase in Postural Sway in Healthy Older Adults

Postural sway increases with age and peripheral sensory disease. Whether, peripheral sensory function is related to postural sway independent of age in healthy adults is unclear. Here, we investigated the relationship between tests of visual function (VISFIELD), vestibular function (CANAL or OTOLITH...

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Published inFrontiers in aging neuroscience Vol. 9; p. 202
Main Authors Anson, Eric, Bigelow, Robin T., Swenor, Bonnielin, Deshpande, Nandini, Studenski, Stephanie, Jeka, John J., Agrawal, Yuri
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 20.06.2017
Frontiers Media S.A
Subjects
Age
Aging
Ankle
Balance
Diabetes
Hypertension
Neuroscience
Neurosciences
Older people
postural sway
Posture
Proprioception
Semicircular canals
Smoking
vestibular
Vestibular system
vision
Visual perception
United States > US
Baltimore Maryland
vision
aging
proprioception
vestibular
postural sway
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Abstract Postural sway increases with age and peripheral sensory disease. Whether, peripheral sensory function is related to postural sway independent of age in healthy adults is unclear. Here, we investigated the relationship between tests of visual function (VISFIELD), vestibular function (CANAL or OTOLITH), proprioceptive function (PROP), and age, with center of mass sway area (COM) measured with eyes open then closed on firm and then a foam surface. A cross-sectional sample of 366 community dwelling healthy adults from the Baltimore Longitudinal Study of Aging was tested. Multiple linear regressions examined the association between COM and VISFIELD, PROP, CANAL, and OTOLITH separately and in multi-sensory models controlling for age and gender. PROP dominated sensory prediction of sway across most balance conditions (β's = 0.09-0.19, 's < 0.001), except on foam eyes closed where CANAL function loss was the only significant sensory predictor of sway (β = 2.12, < 0.016). Age was not a consistent predictor of sway. This suggests loss of peripheral sensory function explains much of the age-associated increase in sway.
AbstractList Postural sway increases with age and peripheral sensory disease. Whether peripheral sensory function is related to postural sway independent of age in healthy adults is unclear. Here we investigated the relationship between tests of visual function (VISFIELD), vestibular function (CANAL or OTOLITH), proprioceptive function (PROP), and age, with center of mass sway area (COM) measured with eyes open then closed on firm and then a foam surface. A cross-sectional sample of 366 community dwelling healthy adults from the Baltimore Longitudinal Study of Aging was tested. Multiple linear regressions examined the association between COM and VISFIELD, PROP, CANAL, and OTOLITH separately and in multi-sensory models controlling for age and gender. PROP dominated sensory prediction of sway across most balance conditions (β’s = 0.09-0.19, p’s < 0.001), except on foam eyes closed where CANAL function loss was the only significant sensory predictor of sway (β = 2.12, p < 0.016). Age was not a consistent predictor of sway. This suggests loss of peripheral sensory function explains much of the age-associated increase in sway.
Postural sway increases with age and peripheral sensory disease. Whether, peripheral sensory function is related to postural sway independent of age in healthy adults is unclear. Here, we investigated the relationship between tests of visual function (VISFIELD), vestibular function (CANAL or OTOLITH), proprioceptive function (PROP), and age, with center of mass sway area (COM) measured with eyes open then closed on firm and then a foam surface. A cross-sectional sample of 366 community dwelling healthy adults from the Baltimore Longitudinal Study of Aging was tested. Multiple linear regressions examined the association between COM and VISFIELD, PROP, CANAL, and OTOLITH separately and in multi-sensory models controlling for age and gender. PROP dominated sensory prediction of sway across most balance conditions (β's = 0.09-0.19, 's < 0.001), except on foam eyes closed where CANAL function loss was the only significant sensory predictor of sway (β = 2.12, < 0.016). Age was not a consistent predictor of sway. This suggests loss of peripheral sensory function explains much of the age-associated increase in sway.
Postural sway increases with age and peripheral sensory disease. Whether, peripheral sensory function is related to postural sway independent of age in healthy adults is unclear. Here, we investigated the relationship between tests of visual function (VISFIELD), vestibular function (CANAL or OTOLITH), proprioceptive function (PROP), and age, with center of mass sway area (COM) measured with eyes open then closed on firm and then a foam surface. A cross-sectional sample of 366 community dwelling healthy adults from the Baltimore Longitudinal Study of Aging was tested. Multiple linear regressions examined the association between COM and VISFIELD, PROP, CANAL, and OTOLITH separately and in multi-sensory models controlling for age and gender. PROP dominated sensory prediction of sway across most balance conditions (β's = 0.09-0.19, p's < 0.001), except on foam eyes closed where CANAL function loss was the only significant sensory predictor of sway (β = 2.12, p < 0.016). Age was not a consistent predictor of sway. This suggests loss of peripheral sensory function explains much of the age-associated increase in sway.Postural sway increases with age and peripheral sensory disease. Whether, peripheral sensory function is related to postural sway independent of age in healthy adults is unclear. Here, we investigated the relationship between tests of visual function (VISFIELD), vestibular function (CANAL or OTOLITH), proprioceptive function (PROP), and age, with center of mass sway area (COM) measured with eyes open then closed on firm and then a foam surface. A cross-sectional sample of 366 community dwelling healthy adults from the Baltimore Longitudinal Study of Aging was tested. Multiple linear regressions examined the association between COM and VISFIELD, PROP, CANAL, and OTOLITH separately and in multi-sensory models controlling for age and gender. PROP dominated sensory prediction of sway across most balance conditions (β's = 0.09-0.19, p's < 0.001), except on foam eyes closed where CANAL function loss was the only significant sensory predictor of sway (β = 2.12, p < 0.016). Age was not a consistent predictor of sway. This suggests loss of peripheral sensory function explains much of the age-associated increase in sway.
Postural sway increases with age and peripheral sensory disease. Whether, peripheral sensory function is related to postural sway independent of age in healthy adults is unclear. Here, we investigated the relationship between tests of visual function (VISFIELD), vestibular function (CANAL or OTOLITH), proprioceptive function (PROP), and age, with center of mass sway area (COM) measured with eyes open then closed on firm and then a foam surface. A cross-sectional sample of 366 community dwelling healthy adults from the Baltimore Longitudinal Study of Aging was tested. Multiple linear regressions examined the association between COM and VISFIELD, PROP, CANAL, and OTOLITH separately and in multi-sensory models controlling for age and gender. PROP dominated sensory prediction of sway across most balance conditions (β's = 0.09–0.19, p 's < 0.001), except on foam eyes closed where CANAL function loss was the only significant sensory predictor of sway (β = 2.12, p < 0.016). Age was not a consistent predictor of sway. This suggests loss of peripheral sensory function explains much of the age-associated increase in sway.
Author Swenor, Bonnielin
Studenski, Stephanie
Anson, Eric
Jeka, John J.
Bigelow, Robin T.
Agrawal, Yuri
Deshpande, Nandini
AuthorAffiliation 4 Longitudinal Studies Section, National Institute on Aging Baltimore, MD, United States
2 Lions Vision Center, Wilmer Eye Institute, Johns Hopkins University School of Medicine Baltimore, MD, United States
5 Department of Kinesiology, Temple University Philadelphia, PA, United States
1 Department of Otolaryngology—Head and Neck Surgery, Johns Hopkins University School of Medicine Baltimore, MD, United States
3 School of Rehabilitation Therapy, Queens University Kingston, ON, Canada
AuthorAffiliation_xml – name: 4 Longitudinal Studies Section, National Institute on Aging Baltimore, MD, United States
– name: 2 Lions Vision Center, Wilmer Eye Institute, Johns Hopkins University School of Medicine Baltimore, MD, United States
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Copyright 2017. This work is licensed under http://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.
Copyright © 2017 Anson, Bigelow, Swenor, Deshpande, Studenski, Jeka and Agrawal. 2017 Anson, Bigelow, Swenor, Deshpande, Studenski, Jeka and Agrawal
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Keywords vision
aging
proprioception
vestibular
postural sway
Language English
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Reviewed by: Richard Camicioli, University of Alberta, Canada; Cheng-Ya Huang, National Taiwan University, Taiwan
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Snippet Postural sway increases with age and peripheral sensory disease. Whether, peripheral sensory function is related to postural sway independent of age in healthy...
Postural sway increases with age and peripheral sensory disease. Whether peripheral sensory function is related to postural sway independent of age in healthy...
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SubjectTerms Age
Aging
Ankle
Balance
Diabetes
Hypertension
Neuroscience
Neurosciences
Older people
postural sway
Posture
Proprioception
Semicircular canals
Smoking
vestibular
Vestibular system
vision
Visual perception
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Title Loss of Peripheral Sensory Function Explains Much of the Increase in Postural Sway in Healthy Older Adults
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