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Your search keyword '"Nooij, Suzanne"' showing total 17 results
Start Over Author "Nooij, Suzanne" Publication Type Academic Journals
17 results on '"Nooij, Suzanne"'

6. Mass perturbation of a body segment: 2. Effects on interlimb coordination

Author

Peper, C.E., Nooij, Suzanne A.E., and van Soest, A.J.

Subjects
Motor ability -- Case studies, Psychology and mental health
Abstract

ABSTRACT, The shifts in relative phase that are observed when rhythmically coordinated limbs are submitted to asymmetric mass perturbations have typically been attributed to the induced eigenfrequency difference ([DELTA][omega]) between [...]

Published
2004

7. Beyond sensory conflict: The role of beliefs and perception in motion sickness.

Author

Nooij, Suzanne A. E., Bockisch, Christopher J., Bülthoff, Heinrich H., and Straumann, Dominik

Subjects
*MOTION sickness, *SENSORY conflict, *VECTION, *SENSORY perception
Abstract

Illusory self-motion often provokes motion sickness, which is commonly explained in terms of an inter-sensory conflict that is not in accordance with previous experience. Here we address the influence of cognition in motion sickness and show that such a conflict is not provocative when the observer believes that the motion illusion is indeed actually occurring. Illusory self-motion and motion sickness were elicited in healthy human participants who were seated on a stationary rotary chair inside a rotating optokinetic drum. Participants knew that both chair and drum could rotate but were unaware of the actual motion stimulus. Results showed that motion sickness was correlated with the discrepancy between participants' perceived self-motion and participants' beliefs about the actual motion. Together with the general motion sickness susceptibility, this discrepancy accounted for 51% of the variance in motion sickness intensity. This finding sheds a new light on the causes of visually induced motion sickness and suggests that it is not governed by an inter-sensory conflict per se, but by beliefs concerning the actual self-motion. This cognitive influence provides a promising tool for the development of new countermeasures. [ABSTRACT FROM AUTHOR]

Published
2021
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8. Vection is the main contributor to motion sickness induced by visual yaw rotation: Implications for conflict and eye movement theories.

Author

Nooij, Suzanne A. E., Pretto, Paolo, Bülthoff, Heinrich H., Oberfeld, Daniel, and Hecht, Heiko

Subjects
*MOTION sickness, *VECTION, *REGRESSION analysis, *EYE movements, *FACTORIAL experiment designs
Abstract

This study investigated the role of vection (i.e., a visually induced sense of self-motion), optokinetic nystagmus (OKN), and inadvertent head movements in visually induced motion sickness (VIMS), evoked by yaw rotation of the visual surround. These three elements have all been proposed as contributing factors in VIMS, as they can be linked to different motion sickness theories. However, a full understanding of the role of each factor is still lacking because independent manipulation has proven difficult in the past. We adopted an integrative approach to the problem by obtaining measures of potentially relevant parameters in four experimental conditions and subsequently combining them in a linear mixed regression model. To that end, participants were exposed to visual yaw rotation in four separate sessions. Using a full factorial design, the OKN was manipulated by a fixation target (present/absent), and vection strength by introducing a conflict in the motion direction of the central and peripheral field of view (present/absent). In all conditions, head movements were minimized as much as possible. Measured parameters included vection strength, vection variability, OKN slow phase velocity, OKN frequency, the number of inadvertent head movements, and inadvertent head tilt. Results show that VIMS increases with vection strength, but that this relation varies among participants (R2 = 0.48). Regression parameters for vection variability, head and eye movement parameters were not significant. These results may seem to be in line with the Sensory Conflict theory on motion sickness, but we argue that a more detailed definition of the exact nature of the conflict is required to fully appreciate the relationship between vection and VIMS. [ABSTRACT FROM AUTHOR]

Published
2017
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9. Roll rate perceptual thresholds in active and passive curve driving simulation.

Author

Nesti, Alessandro, Nooij, Suzanne, Losert, Martin, Bülthoff, Heinrich H., and Pretto, Paolo

Subjects
*AUTOMOBILE driving, *AUTOMOBILE driving simulators, *VIRTUAL reality, *PSYCHOPHYSICS, *AUTOMOBILE steering
Abstract

In driving simulation, simulator tilt is used to reproduce sustained linear acceleration. In order to feel realistic, this tilt is performed at a rate below the human tilt rate detection threshold, which is usually assumed constant. However, it is known that many factors affect the threshold, such as visual information, simulator motion in additional directions, or the driver’s active effort required for controlling the vehicle. Here we investigated the effect of these factors on the roll rate detection threshold during simulated curve driving. Ten participants reported whether they detected roll motion in multiple trials during simulated curve driving, while roll rate was varied over trials. Roll rate detection thresholds were measured under four conditions. In the first three conditions, participants were moved passively through a curve with the following: (i) roll only in darkness; (ii) combined roll/sway in darkness; (iii) combined roll/sway and visual information. In the fourth (iv) condition participants actively drove through the curve. The results showed that roll rate thresholds in simulated curve driving increase, that is, sensitivity decreases, when the roll tilt is combined with sway motion. Moreover, an active control task seemed to further increase the detection threshold, that is, impair motion sensitivity, but with large individual differences. We hypothesize that this is related to the level of immersion during the task. [ABSTRACT FROM AUTHOR]

Published
2016
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10. Orientation of Listing's plane after hypergravity in humans.

Author

Nooij, Suzanne A. E., Bos, Jelte E., and Groen, Eric L.

Subjects
*PHYSIOLOGICAL effects of gravity, *EYE movements, *VESTIBULAR apparatus physiology, *ORIENTATION physiology, *OTOLITH organs
Abstract

Adaptation to a novel gravitational state involves adaptation of vestibular mediated responses, in particular those mediated by the otolith organs. The present paper investigates whether the orientation of Listing's plane, which is under control of otolith signals, is affected by sustained exposure to hypergravity. Subjects were exposed to four G-loads differing in duration (45 or 90 min) and magnitude (2 or 3G). During centrifugation subjects were in a supine position, directing the gravito-inertial acceleration along the naso-occipetal axis. We determined the orientation of Listing's plane before and after each centrifuge run, with the head erect and tilted in pitch. Head tilt in pitch induced a counter-pitch of Listing's plane, which was found to be less pronounced after centrifugation. In addition, exposure to 3G for 90~min induced a small backward tilt of Listing's plane compared to the pretest orientation (head erect). In order to explain these results a hypothesis is discussed, proposing that the orientation of Listing's plane in the head is governed by a head fixed orientation vector that is modulated by the direction of gravity relative to the head. Sustained centrifugation is proposed to decrease this gravitational modulation, leading to the effects observed. This could reflect a shift towards a more body centered frame of reference. [ABSTRACT FROM AUTHOR]

Published
2008
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11. Sickness induced by head movements after different centrifugal G_x-loads and durations.

Author

Nooij, Suzanne A. E. and Bos, Jelte E.

Subjects
*PHYSIOLOGICAL adaptation, *NEUROPLASTICITY, *ARTIFICIAL gravity, *GRAVITY, *VESTIBULAR apparatus, *MOTION sickness, *SIMULATOR sickness
Abstract

It has been found that sustained centrifugation on Earth may evoke sickness symptoms that are similar to those of the Space Adaptation Syndrome (SAS). As in SAS, incidence of this 'Sickness Induced by Centrifugation' (SIC) is about 50% and the symptoms are particularly evoked by head movements. By systematically varying the G-load and duration of centrifugation, the current study investigated the characteristics of the gravitational stimulus that is required for SIC to occur. Subjects were exposed to centrifugation at 2 and 3G_{x}, for a duration of 45 and 90 minutes. A standardized head movement protocol was used to evoke SIC after centrifugation. The results show that in six out of 12 subjects (50%) no serious symptoms were elicited. In the remaining subjects, the effects of the 3G runs exceeded those of the 2G runs, and within each G-level symptom intensity was higher for the 90 min than for the 45 min exposure. An exponential fit on this data showed that the time constant of adaptation to the gravitational stimulus was about 60 minutes. This suggests that short duration exposures (i.e. < 60 min) are not likely to induce serious SIC. [ABSTRACT FROM AUTHOR]

Published
2007

13. Rolling into spatial disorientation: simulator demonstration of the post-roll (Gillingham) illusion.

Author

Nooij SA and Groen EL

Subjects
Accidents, Aviation, Adult, Analysis of Variance, Humans, Illusions, Rotation, Semicircular Canals physiology, Supine Position physiology, Aerospace Medicine, Space Perception
Abstract

Introduction: Spatial disorientation (SD) is still a contributing factor in many aviation accidents, stressing the need for adequate SD training scenarios. In this article we focused on the post-roll effect (the sensation of rolling back after a roll maneuver, such as an entry of a coordinated turn) and investigated the effect of roll stimuli on the pilot's ability to stabilize their roll attitude. This resulted in a ground-based demonstration scenario for pilots., Methods: The experiments took place in the advanced 6-DOF Desdemona motion simulator, with the subject in a supine position. Roll motions were either fully automated with the subjects blindfolded (BLIND), automated with the subject viewing the cockpit interior (COCKPIT), or self-controlled (LEAD). After the roll stimulus subjects had to cancel all perceived simulator motion without any visual feedback. Both the roll velocity and duration were varied., Results: In 68% of all trials subjects corrected for the perceived motion of rolling back by initiating a roll motion in the same direction as the preceeding roll. The effect was dependent on both rate and duration, in a manner consistent with semicircular canal dynamics. The effect was smallest in the BLIND scenario, but differences between simulation scenarios were non-significant., Discussion: The results show that the effects of the post-roll illusion on aircraft control can be demonstrated adequately in a flight simulator using an attitude control task. The effect is present even after short roll movements, occurring frequently in flight. Therefore this demonstration is relevant for spatial disorientation training programs for pilots.

Published
2011
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14. Orientation of Listing's plane after hypergravity in humans.

Author

Nooij SA, Bos JE, and Groen EL

Subjects
Adaptation, Physiological, Adult, Aerospace Medicine, Humans, Male, Otolithic Membrane physiology, Reference Values, Vestibule, Labyrinth physiology, Young Adult, Eye Movements physiology, Hypergravity, Orientation physiology, Proprioception physiology, Reflex, Vestibulo-Ocular physiology
Abstract

Adaptation to a novel gravitational state involves adaptation of vestibular mediated responses, in particular those mediated by the otolith organs. The present paper investigates whether the orientation of Listing's plane, which is under control of otolith signals, is affected by sustained exposure to hypergravity. Subjects were exposed to four G-loads differing in duration (45 or 90 min) and magnitude (2 or 3G). During centrifugation subjects were in a supine position, directing the gravito-inertial acceleration along the naso-occipetal axis. We determined the orientation of Listing's plane before and after each centrifuge run, with the head erect and tilted in pitch. Head tilt in pitch induced a counter-pitch of Listing's plane, which was found to be less pronounced after centrifugation. In addition, exposure to 3G for 90 min induced a small backward tilt of Listing's plane compared to the pretest orientation (head erect). In order to explain these results a hypothesis is discussed, proposing that the orientation of Listing's plane in the head is governed by a head fixed orientation vector that is modulated by the direction of gravity relative to the head. Sustained centrifugation is proposed to decrease this gravitational modulation, leading to the effects observed. This could reflect a shift towards a more body centered frame of reference.

Published
2008

15. Hyperventilation in a motion sickness desensitization program.

Author

Mert A, Bles W, and Nooij SA

Subjects
Adult, Female, Humans, Male, Posture, Prospective Studies, Rotation, Alkalosis, Respiratory etiology, Coriolis Force, Hyperventilation complications, Motion Sickness etiology, Nausea etiology, Vestibular Diseases
Abstract

Introduction: In motion sickness desensitization programs, the motion sickness provocative stimulus is often a forward bending of the trunk on a rotating chair, inducing Coriolis effects. Since respiratory relaxation techniques are applied successfully in these courses, we investigated whether these repetitive trunk movements by themselves may induce hyperventilation and consequently add to the motion sickness., Methods: There were 12 healthy subjects who participated in our study. In the Baseline condition, subjects sat relaxed on the stationary chair. In the Hypervent condition, subjects performed voluntary hyperventilation (the level was prescribed). In two other conditions subjects rhythmically bent their trunk on a stationary chair (Tilt-Stat condition) and on a rotating chair (Tilt-Rot condition). In all conditions we measured respiratory and cardiovascular activity (heart frequency, tidal volume, end-tidal CO2, and respiration frequency)., Results: Of the 12 subjects, 9 had to stop prematurely in the Tilt-Rot condition because of moderate nausea. Except for heart rate in the Tilt-Rot condition, the measured physiological parameters in these subjects in the Tilt-Stat and Tilt-Rot conditions were not statistically different from the Baseline condition. Only in the Hypervent condition were significant differences observed, but no nausea., Discussion: The findings show that hyperventilation is not the main cause of nausea during the Coriolis effects. We conclude that during the pilot desensitization program with Coriolis stimuli, measurement of cardiovascular and respiratory parameters is not necessary; however, in those cases that do not respond to the intervention, we recommend paying attention to respiratory parameters because hyperventilation does occur on an individual basis.

Published
2007

16. Motion sickness provoked by torso rotation.

Author

Nooij SA, Bos JE, and Groen EL

Subjects
Centrifugation, Humans, Motion Perception physiology, Risk Factors, Abdomen physiology, Motion Sickness etiology, Movement physiology, Space Simulation, Thorax physiology, Torsion Abnormality, Weightlessness
Published
2007

17. Sickness induced by head movements after different centrifugal Gx-loads and durations.

Author

Nooij SA and Bos JE

Subjects
Adult, Centrifugation, Humans, Male, Head Movements physiology, Hypergravity adverse effects, Space Motion Sickness physiopathology
Abstract

It has been found that sustained centrifugation on Earth may evoke sickness symptoms that are similar to those of the Space Adaptation Syndrome (SAS). As in SAS, incidence of this 'Sickness Induced by Centrifugation' (SIC) is about 50% and the symptoms are particularly evoked by head movements. By systematically varying the G-load and duration of centrifugation, the current study investigated the characteristics of the gravitational stimulus that is required for SIC to occur. Subjects were exposed to centrifugation at 2 and 3Gx, for a duration of 45 and 90 minutes. A standardized head movement protocol was used to evoke SIC after centrifugation. The results show that in six out of 12 subjects (50%) no serious symptoms were elicited. In the remaining subjects, the effects of the 3G runs exceeded those of the 2G runs, and within each G-level symptom intensity was higher for the 90 min than for the 45 min exposure. An exponential fit on this data showed that the time constant of adaptation to the gravitational stimulus was about 60 minutes. This suggests that short duration exposures (i.e. <60 min) are not likely to induce serious SIC.

Published
2007

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