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Up-down asymmetry of vertical optokinetic nystagmus and after-nystagmus elicited in microgravity (1993)

Clement, Gilles ; Lathan, Corinna E. ; Berthoz, Alain

In: Other Sources

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Publication Date: 2019-07-13

Description: Vertical optokinetic nystagmus (OKN) and optokinetic after-nystagmus (OKAN) studied in 4 subjects during parabolic flights were compared with data obtained on 2 subjects before, during, and after a 7-day space shuttle flight. In parabolic flight, the vertical OKAN following upgoing optokinetic stimulation increased during the 0 g phase, and decreased during the 1.8 g phase. In spaceflight, the vertical OKN gain asymmetry showed a reversal during early exposure to microgravity. This asymmetry reversal is likely the same effect seen in parabolic flight and could be a direct response to the change in otolithic output. However, if asymmetry changes were due only to the otolithic sensory input, we would also expect large changes upon return to normal gravity. Instead, there were large OKN and OKAN changes at the beginning of the flight, but the deviation from the original vertical OKN gain asymmetry constantly decreased throughout the flight and continued post-flight until pre-flight asymmetry value was restored. This suggests one adaptive goal which reinstates the original pre-flight gain and asymmetry value regardless of changing inputs. This adaptation resembles mechanisms seen in posture experiments where the motor programs on Earth are reinstated in microgravity after a period of adjustment.

Keywords: AEROSPACE MEDICINE

Type: IAF PAPER 93-132 , IAF, International Astronautical Congress; Oct 16, 1993 - Oct 22, 1993; Graz; Austria|; 7 p.

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Effects of gravitoinertial force variations on optokinetic nystagmus and on perception of visual stimulus orientation (1992)

Wood, Scott J. ; Reschke, Millard F. ; Verrett, Carol M. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: Recordings of horizontal and vertical eye movement were obtained with subjects exposed to vertical, horizontal, and oblique optokinetic stimulation during parabolic flight. When the optokinetic stimulation was vertical, the upward slow phase eye velocity increased increased during transition from high force level to free-fall, and decreased during transition from free-fall to high force level. During optokinetic stimulation in the horizontal and oblique plane, the gravitoinertial forces of parabolic flight induced changes in the velocity of the vertical component of the eye movements, and, therefore, changes in the plane of the eye movements. Some subjects also preceived modifications in the apparent orientation of the visual motion. These findings are in agreement with previous observations on the presence of a vertical nystagmus induced by changes in plane vertical acceleration. They also suggest a close interaction of reflexive eye movements induced by graviceptor inputs and visual inputs for visual stabilization during variations of gravitoinertial force level.

Keywords: AEROSPACE MEDICINE

Type: Aviation, Space, and Environmental Medicine (ISSN 0095-6562); 63; 9 Se

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Effects of microgravity on the interaction of vestibular and optokinetic nystagmus in the vertical plane (1992)

Reschke, Millard F. ; Wood, Scott J. ; Clement, Gilles

In: Other Sources

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Publication Date: 2019-07-12

Description: The extent to which the slow phase velocity (SPV) of nystagmus elicited by a vertical optokinetic stimulation with constant velocity could be modulated by sinusoidal angular motion in the vertical plane was investigated under normal gravity condition and during the microgravity period of parabolic flight. In normal gravity, when the angular head motion and the optokinetic stimulation were in the same direction, the peak SPV was slower than the velocity of the optokinetic display. When the head motion and the optokinetic stimulation were in opposite directions, the peak SPV was equal to the velocity of the optokinetic display. In microgravity, the peak SPV was approximately equal to the velocity of the optokinetic display when head rotation and optokinetic stimulation were in the same direction, and was faster than the velocity of the optokinetic dispaly when head rotation and optokinetic stimulation were in opposite directions. In addition, the interaction of vestibular and optokinetic nystagmus was found to be nonlinear in microgravity, especially when the optokinetic stimulation was directed downward. These results suggest an interaction between the vestibular and the optokinetic systems modulated as a function of the gravitational state, and support the observation that visual input is more effective in reducing sensory conflict experienced in microgravity.

Keywords: AEROSPACE MEDICINE

Type: Aviation, Space, and Environmental Medicine (ISSN 0095-6562); 63; 9 Se

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