As. Cauquil et al., Anteroposterior dynamic balance reactions to circular movement of the visual field without ocular pursuit, EXP BRAIN R, 123(4), 1998, pp. 382-386
It has been hypothesised that during natural vision, retinal image motion a
nd eye motion information exert antagonistic effects on balance that cancel
each other out. In a previous study, we found that pursuit movements of th
e eye unaccompanied by background slip on the retina induced strong, stereo
typed anteroposterior sway in dynamic balance. In the present work, we inve
stigated the influence of background retinal image slip alone on anteropost
erior dynamic balance. We expected that retinal slip without ocular pursuit
would induce large anteroposterior sway. Circular slip without rotation of
the whole visual field image on the retina was obtained using a rotating p
rism;In this study, carried out on monocular vision, eye movement was preve
nted by fixating a stationary target seen through a small aperture in the p
rism. Anteroposterior dynamic balance conditions were elicited by a rocking
platform. Strong, stereotyped anteroposterior sway accompanied by a visual
illusion of target motion was observed. The induced sway was synchronised
to the stimulus and led to a significant disturbance of balance. The simila
rity in magnitude of the effects of both retinal image motion studied here
and eye motion information obtained previously, and their apposing phases,
strongly support the initial hypothesis that the antagonistic effects of th
e two sources of information provided by normal ocular pursuit could intera
ct in an additive algebraic mode.