Abstract
Upright body stance is inherently unstable. Active feedback control utilizing motion cues from various sensory systems is necessary in order to maintain this upright position. Visual, somatosensory, and vestibular sensory systems are the main contributors to this feedback control. In many environments, accurate information is available from all three of these sensory systems. In other environments, motion information from one or more sensory systems may be absent or inaccurate leading to poor performance (increased body sway) or falls in extreme cases. However simple observations indicate that the motion information from the three sensory systems is highly redundant in that upright stance can be maintained when orientation cues are absent or inaccurate in two of the three sensory systems. For example, a normal subject can stand with eyes closed on a foam pad suggesting that vestibular cues alone are sufficient to maintain upright stance. Also, a subject with a bilateral vestibular loss can stand on a flat surface with eyes closed indicating that somatosensory cues alone provide sufficient feedback information for postural control.
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References
Dichgans, J., and Diener, H.C., 1989, The contribution of vestibulo-spinal mechanisms to the maintenance of human upright posture, Acta Otolaryngol (Stockh) 107:338–345.
Diener, H.C., Dichgans, J., Guschlbauer B., and Mau H., 1984, The significance of proprioception on postural stabilization as assessed by ischemia, Brain Research 296:103–109.
Ishida, A., and Miyazaki, S., 1987, Maximum likelihood identification of a posture control system, IEEE Trans Biomed Eng 34:1–5.
Johansson R., Magnusson, M., and Akesson M., 1988, Identification of Human Postural Dynamics, IEEE Trans Biomed Eng 35:858–869.
Lestienne, F., Soechting, J., and Berthoz, A., 1977, Postural readjustments induced by linear motion of visual scenes, Exp Brain Res 28:363–384.
Mergner, T., Siebold, C., Schweigart, G., and Becker, W., 1991, Human perception of horizontal trunk and head rotation in space during vestibular and neck stimulation, Exp Brain Res 85:389–404.
Peterka, R.J., and Benolken, M.S., 1992, Role of somatosensory and vestibular cues in attenuating visually-induced human postural sway, In: Woollacott M, Horak F (eds.) Posture and gait: Control mechanisms, vol. 1, University of Oregon Books, pp 272–275.
Koozekanani, S.H., Stockwell, C.W., McGhee, R.B., and Firoozmand, F., 1980, On the role of dynamic models in quantitative posturography, IEEE Trans Biomed Eng 27:605–609.
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© 1995 Springer Science+Business Media New York
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Peterka, R.J. (1995). Simple Model of Sensory Interaction in Human Postural Control. In: Mergner, T., Hlavačka, F. (eds) Multisensory Control of Posture. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-1931-7_35
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DOI: https://doi.org/10.1007/978-1-4615-1931-7_35
Publisher Name: Springer, Boston, MA
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