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Article type: Research Article
Authors: Carpenter, Mark G.; | Frank, James S. | Silcher, Cathy P.
Affiliations: University of Waterloo, Waterloo, Ontario, Canada, N2L 3G1
Note: [*] Preliminary results have been presented during the 1996 NASPSPA Meeting, Muskoka, Ontario.
Note: [**] Please send correspondence to: Mark G. Carpenter, Tel.: +1 519 888 4567 ext. (2601); Fax: +1 519 746 6776; E-mail: mgcarpen@nclab.uwaterloo.ca
Abstract: One possible factor influencing the control of upright stance is the perceived threat to one's personal safety, i.e. balance confidence. We explored this factor by examining the control of stationary stance when standing on an elevated platform under various conditions of reduced visual and vestibular inputs. Twenty-eight adults (14 male and 14 female, mean age = 23.5 years) participated in the experiment. Postural control was examined by recording the amplitude variability (RMS) and mean power frequency (MPF) of center of pressure excursions (COP) over a 2-minute interval while participants stood in a normal stance on a low (0.19 m) and a high (0.81 m) platform with toes positioned either at or away from the edge of the platform. Vision was manipulated through eyes open and eyes closed trials. Vestibular input was reduced by tilting the head into extension [1]. Anterior-posterior RMS and MPF of COP were significantly influenced by an interaction between surface height and vision. When vision was available, a significant decrease in RMS was observed during quiet standing on a high surface compared to a low surface independent of step restriction. When vision was available MPF increased when subjects were raised from a low to a high surface. The mean position of the COP was significantly influenced by an interaction between height and step restriction. Differences in RMS and MPF responses to height manipulation were observed between genders in eyes closed conditions. Vestibular input influenced postural control at both low and high levels with significant increases in RMS when vestibular input was reduced. The reciprocal changes observed in RMS and MPF suggest modifications to postural control through changes in ankle stiffness. Vision appears to play a role in increasing ankle stiffness when balance confidence is compromised.
Keywords: fear of falling, centre of pressure, vision, vestibular, height, postural control
DOI: 10.3233/VES-1999-9405
Journal: Journal of Vestibular Research, vol. 9, no. 4, pp. 277-286, 1999
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