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M.I.T./Canadian vestibular experiments on the Spacelab-1 mission: 6. Vestibular reactions to lateral acceleration following ten days of weightlessness (1986)

Young, L. R. ; Arrott, A. P.

In: Other Sources

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Publication Date: 2011-08-24

Description: Tests of otolith function were performed pre-flight and post-flight on the science crew of the first Spacelab Mission with a rail-mounted linear acceleration sled. Four tests were performed using horizontal lateral (y-axis) acceleration: perception of linear motion, a closed loop nulling task, dynamic ocular torsion, and lateral eye deviations. The motion perception test measured the time to detect the onset and direction of near threshold accelerations. Post-flight measures of threshold and velocity constant obtained during the days immediately following the mission showed no consistent pattern of change among the four crewmen compared to their pre-flight baseline other than an increased variability of response. In the closed loop nulling task, crewmen controlled the motion of the sled and attempted to null a computer-generated random disturbance motion. When performed in the light, no difference in ability was noted between pre-flight and post-flight. In the dark, however, two of the four crewmen exhibited somewhat enhanced performance post-flight. Dynamic ocular torsion was measured in response to sinusoidal lateral acceleration which produces a gravitionertial stimulus equivalent to lateral head tilt without rotational movement of the head. Results available for two crewmen suggest a decreased amplitude of sinusoidal ocular torsion when measured on the day of landing (R+0) and an increasing amplitude when measured during the week following the mission.

Keywords: Life Sciences (General)

Type: Experimental brain research. Experimentelle Hirnforschung. Experimentation cerebrale (ISSN 0014-4819); Volume 64; 2; 347-57

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2

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Perception of linear acceleration in weightlessness (1990)

Merfeld, D. M. ; Young, L. R. ; Arrott, A. P.

In: Other Sources

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Publication Date: 2011-08-24

Description: Tests of the perception and use of linear acceleration sensory information were performed on the science crews of the Spacelab 1 (SL-1) and D-1 missions using linear "sleds" in-flight (D-1) and pre-post flight. The time delay between the acceleration step stimulus and the subjective response was consistently reduced during weightlessness, but was neither statistically significant nor of functional importance. Increased variability of responses when going from one environment to the other was apparent from measurements on the first day of the mission and in the first days post-flight. Subjective reports of perceived motion during sinusoidal oscillation in weightlessness were qualitatively similar to reports on earth. In a closed-loop motion nulling task, enhanced performance was observed post-flight in all crewmembers tested in the Y or Z axes.

Keywords: Aerospace Medicine

Type: Aviation, space, and environmental medicine (ISSN 0095-6562); Volume 61; 4; 319-26

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3

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Vestibular reactions to lateral acceleration following ten days of weightlessness (1983)

Arrott, A. P. ; Young, L. R.

In: CASI

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Publication Date: 2004-10-30

Keywords: AEROSPACE MEDICINE

Type: INSI02 Vestibular Experiments on Spacelab-1; 31 p

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4

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Sensory adaptation to weightlessness and readaptation to one-g: An overview (1983)

Arrott, A. P. ; Young, L. R. ; Watt, D. G. D. ; [et al.]

In: CASI

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Publication Date: 2004-10-30

Keywords: AEROSPACE MEDICINE

Type: INSI02 Vestibular Experiments on Spacelab-1; 22 p

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5

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M.I.T./Canadian Vestibular Experiments on the Spacelab-1 Mission. Part 1: Sensory Adaptation to Weightlessness and Readaptation to One-G: An Overview (1991)

Lichtenberg, B. K. ; Arrott, A. P. ; Watt, D. G. D. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: Experiments on human spatial orientation were conducted on four crewmembers of Space Shuttle Spacelab Mission 1. The conceptual background of the project, the relationship among the experiments, and their relevance to a 'sensory reinterpretation hypothesis' are presented. Detailed experiment procedures and results are presented in the accompanying papers in this series. The overall findings are discussed as they pertain to the following aspects of hypothesized sensory reinterpretation in weightlessness: (1) utricular otolith afferent signals are reinterpreted as indicating head translation rather than tilt, (2) sensitivity of reflex responses to footward acceleration is reduced, and (3) increased weighting is given to visual and tactile cues in orientation perception and posture control. Results suggest increased weighting of visual cues and reduced weighting of graviceptor signals in weightlessness.

Keywords: AEROSPACE MEDICINE

Type: NASA. Lyndon B. Johnson Space Center, Spacelab Life Sciences 1: Reprints of Background Life Sciences Publications; p 346-353

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Overview

6

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Reinterpretation of otolith input as a primary factor in space motion sickness (1985)

Anderson, D. J. ; Parker, D. E. ; Arrott, A. P. ; [et al.]

In: CASI

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Publication Date: 2017-10-02

Description: It is hypothesized that exposure to prolonged free fall is a form of sensory/motor rearrangement rather than a direct change in otolith sensitivity or sensory compensation for a reduced otolith input. The rearrangement of stimuli will force a new interpretation by the CNS of otolith input. This reinterpretation is necessary for a structured and meaningful interaction with the new environment. Data from two flight experiments are presented which support an otolith reinterpretation hypothesis. The first experiment measured vestibulo-spinal reflex changes as a function of sustained free fall. Findings indicate that when a monosynaptic reflex (H-reflex), measured from the major postural muscles (soleus), is used adaptation to space flight includes a change in how the CNS interprets a fall. In a normal gravity environment a sudden unexpected fall will produce a potentiated H reflex. After seven days in flight an equivalent fall does not potentiate the reflex. During postflight a greatly increased reflex is observed in those crewmen most susceptible to space motion sickness. In the second experiment self motion perception and torsional eyemovements were modified as a function of exposure to sustained free fall. Preflight roll motion (about the X axis) was perceived as pure roll, and the eye movements recorded were countertorsional. Postflight, roll stimulation was perceived as linear translation (side to side movement) with a small angular motion component. Eye movement measurements confirmed significantly more horizontal motion.

Keywords: AEROSPACE MEDICINE

Type: AGARD Results of Space Expt. in Physiol. and Med. and Informal Briefings by the F-16 Med. Working Group; 18 p

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7

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Otolith tilt-translation reinterpretation following prolonged weightlessness - Implications for preflight training (1985)

Homick, J. L. ; Parker, D. E. ; Reschke, M. F. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Observations with three astronauts yielded two major findings. First, perceived self-motion during sinusoidal roll differed immediately postflight from preflight. Between 70 and 150 min after landing, roll was perceived primarily as linear translation. Secondly, more horizontal eye movement was elicited by roll simulation immediately postflight relative to both preflight and later postflight observations. These results support an 'otolith tilt-translation reinterpretation' hypothesis, which has clear implications for understanding astronaut reports of space motion sickness during the early period of orbital flight. A proposal for 'prophylactic adaptation training' which may provide preflight adaptation to weightlessness, derives from this reearch.

Keywords: AEROSPACE MEDICINE

Type: Aviation, Space, and Environmental Medicine (ISSN 0095-6562); 56; 601-606

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8

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Preadapting to Weightlessness (1986)

Reschke, M. F. ; Arrott, A. P. ; Parker, D. E.

In: Other Sources

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Publication Date: 2019-06-28

Description: Report discusses physiological and physical concepts of proposed training system to precondition astronauts to weightless environment. System prevents motion sickness, often experienced during early part of orbital flight. Also helps prevent seasickness and other forms of terrestrial motion sickness, often experienced during early part of orbital flight. Training affects subject's perception of inner-ear signals, visual signals, and kinesthetic motion perception. Changed perception resembles that of astronauts who spent many days in space and adapted to weightlessness.

Keywords: LIFE SCIENCES

Type: MSC-20847 , NASA Tech Briefs (ISSN 0145-319X); 9; 4; P. 124

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9

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Ocular torsion on earth and in weightlessness (1981)

Lichtenberg, B. K. ; Oman, C. M. ; Young, L. R. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Otolith function is studied by means of measurements of ocular torsion under various acceleration environments on earth and in weightlessness. Photographic measurements of ocular torsion as indicated by the rotation of landmarks on the iris with respect to head-fixed fiducial marks were obtained in subjects undergoing horizontal linear acceleration in a ground-based version of the space sled, lateral acceleration from weightlessness during pullout from the free-fall portion of parabolic flight, and optokinetic stimulation about the roll axis in the supine position in the laboratory and during weightlessness. The responses of ocular torsion to horizontal acceleration are in agreement with a simple low-order linear system with a dominant time constant of 0.33 sec, with a transfer function fit by a model with a pure delay of 0 to 400 msec and a first-order lag. In the pullout experiment, torsion was not observed in response to the onset of acceleration in the right-ear-down position, although it was present in response to the lateral stimulus. Results of the roll vection experiments indicate the independence of ocular torsion and visually induced tilt. In addition, an automatic video system using a soft contact lens target is presented which has been developed for ocular torsion measurements.

Keywords: AEROSPACE MEDICINE

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10

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Space motion sickness preflight adaptation training: preliminary studies with prototype trainers (1987)

Arrott, A. P. ; Ouyang, L. ; Rock, J. C. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Preflight training frequently has been proposed as a potential solution to the problem of space motion sickness. The paper considers successively the otolith reinterpretation, the concept for a preflight adaptation trainer and the research with the Miami University Seesaw, the Wright Patterson Air-Force Base Dynamic Environment Simulator and the Visually Coupled Airborne Systems Simulator prototype adaptation trainers.

Keywords: Behavioral Sciences

Type: Acta astronautica (ISSN 0094-5765); 15; 1; 67-71

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