BacciniM.RinaldiL.FederighiG.VannucchiL.PaciM.MasottiG. (2007). Effectiveness of fingertip light contact in reducing postural sway in older people. Age and Ageing, 36, 30–35.
2.
ClappS.WingA. M. (1999). Light touch contribution to balance in normal bipedal stance. Experimental Brain Research, 125, 521–524.
3.
DicksteinR.ShupertC.HorakF. (2001). Fingertip touch improves postural stability in patients with peripheral neuropathy. Gait and Posture, 14, 238–247.
4.
EastonR. D. (1992). Lnherent problems of attempts to apply sonar and vibrotactile sensory aid technology to the perceptual needs of the blind. Optometry and Vision Science, 69, 3–14.
5.
HoldenM.VenturaJ.LacknerJ. R. (1994). Stabilization of posture by precision contact of the index finger. Journal of Vestibular Research, 4, 285–301.
6.
HorakF. B. (1994). Role of the vestibular system in postural control. In HerdmanS. J. (Ed.), Vestibular rehabilitation (pp. 22–46). FA Davis Co.
7.
JekaJ. J. (1997). Light touch contact as a balance aid. Physical Therapy, 77, 476–487.
8.
JekaJ. J.EastonR. D.BentzenB. L.LacknerJ. R. (1996). Haptic cues for postural control in sighted and blind individuals. Perception and Psychophysics, 58, 409–423.
9.
JekaJ. J.LacknerJ. R. (1994). Fingertip contact influences human postural control. Experimental Brain Research, 100, 495–502.
10.
KrishnamoorthyV.SlijperH.LatashM. L. (2002). Effects of different types of light touch on postural sway. Experimental Brain Research, 147, 71–79.
11.
LacknerJ. R.DiZioP.JekaJ.HorakF.KrebsD.RabinE. (1999). Precision contact of the fingertip reduces postural sway of individuals with bilateral vestibular loss. Experimental Brain Research, 126, 459–466.
12.
LacknerJ. R.RabinE.DiZioP. (2001). Stabilization of posture by precision touch of the index finger with rigid and flexible filaments. Experimental Brain Research, 139, 454–464.
13.
MakiB. E.HollidayP. J.TopperA. K. (1994). A prospective study of postural balance and risk of falling in an ambulatory and independent elderly population. The Journals of Gerontology, 49, 72–84.
14.
MelzerI.BenjuyaN.KaplanskiJ. (2001). Age-related changes of postural control: Effect of cognitive tasks. Gerontology, 47(4), 189–194.
15.
MelzerI.BenjuyaN.KaplanskiJ. (2004). Postural stability of elderly: A comparison between fallers and non-fallers. Age & Ageing, 33(6), 602–607.
16.
MelzerI.DamryE.LandauA.YagevR. (2011). The influence of an auditory-memory attention-demanding task on postural control in blind persons. Clinical biomechanics (Bristol, Avon), 26(4), 358–362.
17.
MitchellS.CollinsJ. J.De LucaC. J.BurrowsA.LipsitzL. A. (1995). Open-loop and closed-loop postural control mechanisms in Parkinson’s disease—Increased mediolateral activity during quiet standing. Neuroscience Letters, 197, 133.
18.
PickH. L. (1974). Visual coding of non-visual spatial information. In MacLeodR. B.PickH. L. (Eds.), Perception: Essays in honor of James J. Gibson (pp. 153–165). Cornell University Press.
19.
RabinE.BortolamiS. B.DiZioP.LacknerJ. R (1999). Haptic stabilization of posture: Changes in arm proprioception and cutaneous feedback for different arm orientations. Journal of Neurophysiology, 82, 3541–3549.
20.
ReginellaR. L.RedfernM. S.FurmanJ. M (1999). Postural sway with earth-fixed and body-referenced finger contact in young and older adults. Journal of Vestibular Research, 9, 103–109.
21.
RieserJ.GuthD.HillE. (1982). Mental processes mediating independent travel: Implications for orientation and mobility. Journal of Visual Impairment & Blindness, 76, 213–218.
22.
RieserJ.GuthD.HillE. (1986). Sensitivity to perspective structure while walking without vision. Perception, 15, 173–188.
23.
ShorerZ.BeckerB.Jacobi-PolishookT.OddssonL.MelzerI. (2012). Postural control among children with and without attention deficit hyperactivity disorder in single and dual conditions. European Journal of Pediatrics, 171(7), 1087–1094.
24.
TremblayF.MireaultA. C.DessureaultL.ManningH.SveistrupH. (2005). Postural stabilization from fingertip contact: II. Relationships between age, tactile sensibility and magnitude of contact forces. Experimental Brain Research, 164, 155–164.
