Behrang Keshavarz1, Heiko Hecht. 1. Department of Experimental Psychology, Johannes Gutenberg-Universität Mainz, Germany. behrang.keshavarz@uni-mainz.de
Abstract
OBJECTIVE: Motion sickness (MS) can be a debilitating side effect associated with motion in real or virtual environments. We analyzed the effect of expectancy on MS and propose and validate a fast and simple MS measure. BACKGROUND: Several questionnaires measure MS before or after stimulus presentation, but no satisfactory tool has been established to quickly capture MS data during exposure. To fill this gap, we introduce the Fast MS Scale (FMS), a verbal rating scale ranging from zero (no sickness at all) to 20 (frank sickness). Also, little is known about the role of expectancy effects in MS studies. We conducted an experiment that addressed this issue. METHOD: For this study, 126 volunteers participated in two experiments. During stimulus presentation, participants had to verbally rate the severity of MS every minute before filling in the Simulator Sickness Questionnaire (SSQ). To measure expectancy effects, participants were separated into three groups with either positive, negative, or neutral expectations. RESULTS: We compared the verbal ratings with the SSQ scores. Pearson correlations were high for both the SSQ total score (r = .785) and the nausea subscore (r = .828). No expectancy effects were found. CONCLUSION: The FMS is a fast and valid method to obtain MS data. It offers the possibility to record MS during stimulus presentation and to capture its time course. We found expectancy not to play a crucial role in MS. However, the FMS has some limitations. APPLICATION: The FMS offers improved MS measurement. It is fast and efficient and can be performed online in environments such as virtual reality.
OBJECTIVE: Motion sickness (MS) can be a debilitating side effect associated with motion in real or virtual environments. We analyzed the effect of expectancy on MS and propose and validate a fast and simple MS measure. BACKGROUND: Several questionnaires measure MS before or after stimulus presentation, but no satisfactory tool has been established to quickly capture MS data during exposure. To fill this gap, we introduce the Fast MS Scale (FMS), a verbal rating scale ranging from zero (no sickness at all) to 20 (frank sickness). Also, little is known about the role of expectancy effects in MS studies. We conducted an experiment that addressed this issue. METHOD: For this study, 126 volunteers participated in two experiments. During stimulus presentation, participants had to verbally rate the severity of MS every minute before filling in the Simulator Sickness Questionnaire (SSQ). To measure expectancy effects, participants were separated into three groups with either positive, negative, or neutral expectations. RESULTS: We compared the verbal ratings with the SSQ scores. Pearson correlations were high for both the SSQ total score (r = .785) and the nausea subscore (r = .828). No expectancy effects were found. CONCLUSION: The FMS is a fast and valid method to obtain MS data. It offers the possibility to record MS during stimulus presentation and to capture its time course. We found expectancy not to play a crucial role in MS. However, the FMS has some limitations. APPLICATION: The FMS offers improved MS measurement. It is fast and efficient and can be performed online in environments such as virtual reality.
Authors: Tobias Huber; Tom Wunderling; Markus Paschold; Hauke Lang; Werner Kneist; Christian Hansen Journal: Int J Comput Assist Radiol Surg Date: 2017-11-18 Impact factor: 2.924
Authors: Adam D Farmer; Vin F Ban; Steven J Coen; Gareth J Sanger; Gareth J Barker; Michael A Gresty; Vincent P Giampietro; Steven C Williams; Dominic L Webb; Per M Hellström; Paul L R Andrews; Qasim Aziz Journal: J Physiol Date: 2015-01-29 Impact factor: 5.182