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Special Issue:
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6th NASA Symposium on The Role of the Vestibular Organs in the
Exploration of Space, Portland, OR, USA, September 30-
October 3, 2002
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Sensorimotor coordination and the structure of space
pp. 157 - 172
Gin McCollum
Perceptual disturbances predicted in zero-g through three-dimensional
modeling
pp. 173 - 186
Jan E. Holly
Models of the mechanical sensitivity and growth
of otoliths in fish
pp. 189 - 203
Alexander V. Kondrachuk
A critical period for gravitational effects on otolith formation
pp. 205 - 214
Michael L. Wiederhold, Jeffrey L. Harrison, Wenyuan Gao
Unilateral examination of utricle and saccule function
pp. 215 - 225
A.H. Clarke, U. Schönfeld, K. Helling
Utricular sensitivity and preponderance assessed by the unilateral
centrifugation test
pp. 227 - 234
Floris L. Wuyts, Mieke Hoppenbrouwers, Griet Pauwels, Paul H. Van de Heyning
Hydrostatic pressure effects on vestibular hair cell afferents in fish
and crustacea
pp. 235 - 242
Peter J. Fraser, Stuart F. Cruickshank, Richard L. Shelmerdine
Gravity or translation: Central processing of vestibular signals to detect
motion or tilt
pp. 245 - 253
Dora E. Angelaki and J. David Dickman
A review of the effects of space flight on the asymmetry of vertical
optokinetic and vestibulo-ocular reflexes
pp. 255 - 263
Gilles Clément
Perceptual stability during active head movements orthogonal
and parallel to gravity
pp. 265 - 271
P. Jaekl, M. Jenkin, L.R. Harris
Gravity and spatial orientation in virtual 3D-mazes
pp. 273 - 286
Manuel Vidal, Mark Lipshits, Joseph McIntyre, Alain Berthoz
Relative role of visual and non-visual cues in determining the direction of
"up": Experiments in the York tilted room facility
pp. 287 - 293
H.L. Jenkin, R.T. Dyde, M.R. Jenkin, I.P. Howard, L.R. Harris
Models for neurovestibular adaptation
pp. 297 - 307
Laurence R. Young
Rotation otolith tilt-translation reinterpretation (ROTTR) hypothesis:
A new hypothesis to explain neurovestibular spaceflight adaptation
pp. 309 - 320
Daniel M. Merfeld
Adaptation to rotating artificial gravity environments
pp. 321 - 330
James R. Lackner and Paul A. DiZio
Spatial perception changes associated with space flight: Implications
for adaptation to altered inertial environments
pp. 331 - 343
Donald E. Parker
Context-specific adaptation and its significance for
neurovestibular problems of space flight
pp. 345 - 362
Mark Shelhamer and David S. Zee
Vestibular suppression during space flight
pp. 363 - 376
Douglas Watt and Luc Lefebvre
Ocular and perceptual responses to linear acceleration in microgravity:
Alterations in otolith function on the COSMOS and Neurolab flights
pp. 377 - 393
Steven T. Moore, Gilles Clément, Mingjai Dai, T. Raphan, D. Solomon, B. Cohen
Plastic changes in processing of graviceptive signals during spaceflight
potentially contribute to postflight orthostatic intolerance
pp. 395 - 404
B.J. Yates, M.J. Holmes, B.J. Jian
Update on the status of rehabilitative countermeasures to ameliorate
the effects of long-duration exposure to microgravity on
vestibular and sensorimotor function
pp. 405 - 409
Helen S. Cohen
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