Explicit visual feedback on postural sway is often used in balance assessment and training. However, up-weighting of visual information may mask impairments of other sensory systems. We therefore aimed to determine whether the effects of somatosensory, vestibular, and p... View more
Billot M, Handrigan GA, Simoneau M, Corbeil P, Teasdale N. Short term alteration of balance control after a reduction of plantar mechanoreceptor sensation through cooling. Neurosci Lett 535: 40 - 44, 2013.
Bingham JT, Choi JT, Ting LH. Stability in a frontal plane model of balance requires coupled changes to postural configuration and neural feedback control. J Neurophysiol 106: 437- 448, 2011.
Boudrahem S, Rougier PR. Relation between postural control assessment with eyes open and centre of pressure visual feedback effects in healthy individuals. Exp Brain Res 195: 145-152, 2009.
Brauer SG, Burns YR, Galley P. A prospective study of laboratory and clinical measures of postural stability to predict community-dwelling fallers. J Gerontol A Biol Sci Med Sci 55: M469 -M476, 2000.
Cenciarini M, Loughlin PJ, Sparto PJ, Redfern MS. Stiffness and damping in postural control increase with age. IEEE Trans Biomed Eng 57: 267-275, 2010.
Cofre Lizama LE, Pijnappels M, Faber GH, Reeves PN, Verschueren SM, van Dieen JH. Age effects on mediolateral balance control. PLoS One 9: e110757, 2014.
Cofre Lizama LE, Pijnappels M, Reeves NP, Verschueren SM, van Dieen JH. Frequency domain mediolateral balance assessment using a center of pressure tracking task. J Biomech 46: 2831-2836, 2013.
Dault MC, de Haart M, Geurts AC, Arts IMP, Nienhuis B. Effects of visual center of pressure feedback on postural control in young and elderly healthy adults and in stroke patients. Hum Mov Sci 22: 221-236, 2003.
de Leva P. Adjustments to Zatsiorsky-Seluyanov's segment inertia parameters. J Biomech 29: 1223-1230, 1996.
Dickstein R, Laufer Y, Katz M. TENS to the posterior aspect of the legs decreases postural sway during stance. Neurosci Lett 393: 51-55, 2006.