Su1225 TRADIPITANT EFFECTIVE IN THE REDUCTION OF VOMITING ASSOCIATED WITH MOTION SICKNESS ACROSS VARIED SEA CONDITIONS
(Source: Gastroenterology)
Source: Gastroenterology - May 6, 2024 Category: Gastroenterology Authors: Vasilios M. Polymeropoulos, Margaret L. Bushman, Dane B. Morgan, Leah Kiely, Cameron R. Miller, Elizabeth B. Sutherland, Abigail R. Goldberg, Tanner R. Davis, Raina Mourad, Nikolas V. Pham, Changfu Xiao, Christos Polymeropoulos, Gunther Birznieks, Mihael Tags: AGA Abstracts Source Type: research
Effects of passenger body movements in a visual task during and after vehicle rotation on post-rotatory illusion and motion sickness
Exp Brain Res. 2024 Apr 27. doi: 10.1007/s00221-024-06837-4. Online ahead of print.ABSTRACTWe explored how body movements influence illusory body motion intensity and their association with motion sickness. Twelve individuals who were seated in the back of a passenger car, performed a visual task and were subjected to continuous rotations followed by driving in a straight line. The body movements during and immediately after rotation were categorized as follows: (A) upright posture; (B) leaning the body in the yaw direction towards the rotation center, returning the yaw angle to zero upon transitioning to straight line tra...
Source: Brain Research - April 27, 2024 Category: Neurology Authors: Takahiro Wada Eito Sato Yasuaki Orita Shogo Kida Hidenori Horita Takeshi Rakumatsu Source Type: research
Effects of passenger body movements in a visual task during and after vehicle rotation on post-rotatory illusion and motion sickness
Exp Brain Res. 2024 Apr 27. doi: 10.1007/s00221-024-06837-4. Online ahead of print.ABSTRACTWe explored how body movements influence illusory body motion intensity and their association with motion sickness. Twelve individuals who were seated in the back of a passenger car, performed a visual task and were subjected to continuous rotations followed by driving in a straight line. The body movements during and immediately after rotation were categorized as follows: (A) upright posture; (B) leaning the body in the yaw direction towards the rotation center, returning the yaw angle to zero upon transitioning to straight line tra...
Source: Experimental Brain Research - April 27, 2024 Category: Neuroscience Authors: Takahiro Wada Eito Sato Yasuaki Orita Shogo Kida Hidenori Horita Takeshi Rakumatsu Source Type: research
Effects of passenger body movements in a visual task during and after vehicle rotation on post-rotatory illusion and motion sickness
Exp Brain Res. 2024 Apr 27. doi: 10.1007/s00221-024-06837-4. Online ahead of print.ABSTRACTWe explored how body movements influence illusory body motion intensity and their association with motion sickness. Twelve individuals who were seated in the back of a passenger car, performed a visual task and were subjected to continuous rotations followed by driving in a straight line. The body movements during and immediately after rotation were categorized as follows: (A) upright posture; (B) leaning the body in the yaw direction towards the rotation center, returning the yaw angle to zero upon transitioning to straight line tra...
Source: Brain Research - April 27, 2024 Category: Neurology Authors: Takahiro Wada Eito Sato Yasuaki Orita Shogo Kida Hidenori Horita Takeshi Rakumatsu Source Type: research
Effects of passenger body movements in a visual task during and after vehicle rotation on post-rotatory illusion and motion sickness
Exp Brain Res. 2024 Apr 27. doi: 10.1007/s00221-024-06837-4. Online ahead of print.ABSTRACTWe explored how body movements influence illusory body motion intensity and their association with motion sickness. Twelve individuals who were seated in the back of a passenger car, performed a visual task and were subjected to continuous rotations followed by driving in a straight line. The body movements during and immediately after rotation were categorized as follows: (A) upright posture; (B) leaning the body in the yaw direction towards the rotation center, returning the yaw angle to zero upon transitioning to straight line tra...
Source: Experimental Brain Research - April 27, 2024 Category: Neuroscience Authors: Takahiro Wada Eito Sato Yasuaki Orita Shogo Kida Hidenori Horita Takeshi Rakumatsu Source Type: research
Effects of passenger body movements in a visual task during and after vehicle rotation on post-rotatory illusion and motion sickness
Exp Brain Res. 2024 Apr 27. doi: 10.1007/s00221-024-06837-4. Online ahead of print.ABSTRACTWe explored how body movements influence illusory body motion intensity and their association with motion sickness. Twelve individuals who were seated in the back of a passenger car, performed a visual task and were subjected to continuous rotations followed by driving in a straight line. The body movements during and immediately after rotation were categorized as follows: (A) upright posture; (B) leaning the body in the yaw direction towards the rotation center, returning the yaw angle to zero upon transitioning to straight line tra...
Source: Experimental Brain Research - April 27, 2024 Category: Neuroscience Authors: Takahiro Wada Eito Sato Yasuaki Orita Shogo Kida Hidenori Horita Takeshi Rakumatsu Source Type: research
Reduced VR Motion Sickness by Applying Random-phase Transcranial Alternating Current Stimulation to the Left Parietal Cortex
With the increasing spread of consumer-friendly VR headsets in our daily life, VR motion sickness (VRMS) is approximately affecting 40-70% of the VR users [1]. Although brain stimulation-based VRMS mitigation techniques exist [2], it is still unclear whether the mitigated VRMS symptoms in these previous studies could be observed in an online manner. In other words, whether or not reduced VRMS could be perceived while tACS was applied concurrently with the VR environment. Furthermore, the true attribution of mitigated VRMS symptoms to targeted brain interventions or other factors, such as the side effects of brain stimulati...
Source: BRAIN STIMULATION: Basic, Translational, and Clinical Research in Neuromodulation - April 24, 2024 Category: Neurology Authors: Gang Li, Theodore Zanto Source Type: research
Retraction Note: A computational model of motion sickness dynamics during passive self-motion in the dark
Exp Brain Res. 2024 Apr 19. doi: 10.1007/s00221-024-06838-3. Online ahead of print.NO ABSTRACTPMID:38639805 | DOI:10.1007/s00221-024-06838-3 (Source: Brain Research)
Source: Brain Research - April 19, 2024 Category: Neurology Authors: Aaron R Allred Torin K Clark Source Type: research
Retraction Note: A computational model of motion sickness dynamics during passive self-motion in the dark
Exp Brain Res. 2024 Apr 19. doi: 10.1007/s00221-024-06838-3. Online ahead of print.NO ABSTRACTPMID:38639805 | DOI:10.1007/s00221-024-06838-3 (Source: Experimental Brain Research)
Source: Experimental Brain Research - April 19, 2024 Category: Neuroscience Authors: Aaron R Allred Torin K Clark Source Type: research
Long and short-term characteristics of motion sickness: a test track investigation in a passenger car
This study explores the long and short-term characteristics of motion sickness, and uses self-reported motion sickness ratings at the end of car motion (the high point) and 3 s after the end of motion (the low point). Motion sickness ratings increased with task vs. no-task conditions. There is no significant correction between gender and maximum motion sickness in this study. Moreover, participants with high motion sickness susceptibility experienced increased motion s ickness. The difference between the low point and the high point is found to decrease as the motion sickness ratings increase. (Source: Cognition, Technology and Work)
Source: Cognition, Technology and Work - March 31, 2024 Category: Information Technology Source Type: research
Effects of cannabidiol on psychosocial stress, situational anxiety and nausea in a virtual reality environment: a protocol for a single-centre randomised clinical trial
This study will indicate whether low-dose oral CBD has positive effects in reducing acute psychosocial stress, situational anxiety, motion sickness and cybersickness.
Ethics and dissemination
The University of Sydney Human Research Ethics Committee has granted approval (2023/307, version 1.6, 16 February 2024). Study findings will be disseminated in a peer-reviewed journal and at academic conferences.
Trial registration number
Australian New Zealand Clinical Trials Registry (ACTRN12623000872639). (Source: BMJ Open)
Source: BMJ Open - March 25, 2024 Category: General Medicine Authors: Bawa, Z., McCartney, D., Bedoya-Perez, M., Lau, N. S., Fox, R., MacDougall, H., McGregor, I. S. Tags: Open access, Pharmacology and therapeutics Source Type: research
Implementing virtual reality technology to teach medical college systemic anatomy: A pilot study
In conclusion, the VR anatomy instruction video strategy is feasible and helpful for large classes, but educators should consider VIMS when planning their use of this teaching approach. (Source: Anatomical Sciences Education)
Source: Anatomical Sciences Education - March 15, 2024 Category: Anatomy Authors: Meng ‐Lin Liao,
Chi‐Chuan Yeh,
June‐Horng Lue,
Ming‐Fong Chang Tags: RESEARCH REPORT Source Type: research
Transportation ‐induced nausea‐like behavior in goats and the effects of anti‐motion sickness medication
This study investigated the nausea-like behavior induced by road transportation in goats, and the effects of an anti-motion sickness (MS) medication on this behavior. In the first experiment, 11 adult Shiba goats were road transported twice with either a saline (control) or a commercial anti-MS medication (Travelmin) injection at the first or second transportation. Almost all goats showed nausea-like behavior, which was defined as pointing their heads downward, closing their eyes, and staying relatively still. These goats did not respond when they were touched during blood collection. The anti-MS medication significantly r...
Source: Animal Science Journal - March 15, 2024 Category: Zoology Authors: Masato Aoyama,
Takumi Motegi,
Hiroki Kaneta,
Shoei Sugita Tags: RESEARCH ARTICLE Source Type: research
A computational model of motion sickness dynamics during passive self-motion in the dark
Exp Brain Res. 2024 Mar 15. doi: 10.1007/s00221-024-06804-z. Online ahead of print.ABSTRACTPredicting the time course of motion sickness symptoms enables the evaluation of provocative stimuli and the development of countermeasures for reducing symptom severity. In pursuit of this goal, we present an Observer-driven model of motion sickness for passive motions in the dark. Constructed in two stages, this model predicts motion sickness symptoms by bridging sensory conflict (i.e., differences between actual and expected sensory signals) arising from the Observer model of spatial orientation perception (stage 1) to Oman's mode...
Source: Experimental Brain Research - March 15, 2024 Category: Neuroscience Authors: Aaron R Allred Torin K Clark Source Type: research
A computational model of motion sickness dynamics during passive self-motion in the dark
Exp Brain Res. 2024 Mar 15. doi: 10.1007/s00221-024-06804-z. Online ahead of print.ABSTRACTPredicting the time course of motion sickness symptoms enables the evaluation of provocative stimuli and the development of countermeasures for reducing symptom severity. In pursuit of this goal, we present an Observer-driven model of motion sickness for passive motions in the dark. Constructed in two stages, this model predicts motion sickness symptoms by bridging sensory conflict (i.e., differences between actual and expected sensory signals) arising from the Observer model of spatial orientation perception (stage 1) to Oman's mode...
Source: Brain Research - March 15, 2024 Category: Neurology Authors: Aaron R Allred Torin K Clark Source Type: research
