Earth-vertical motion perception assessment using an elevator: a feasibility study

• Published in: Scientific reports Vol. 13; no. 1; pp. 9450 - 8
• Main Authors: Schellenberg, Simona, Straumann, Dominik, Green, David Andrew, Schuetz, Philipp, Zehnder, Yves, Swanenburg, Jaap
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 09.06.2023; Nature Publishing Group; Nature Portfolio
• Subjects: 692/617/375; 692/698/1688/512; Feasibility studies; Humanities and Social Sciences; Motion detection; multidisciplinary; Otology; Perception; Reaction time task; Saccule; Science; Science (multidisciplinary); Vestibular system
• ISSN: 2045-2322; 2045-2322
• DOI: 10.1038/s41598-023-36655-7

A feasible, inexpensive, rapid, and easy-to-use method to measure vestibular vertical movement perception is needed to assess the sacculus-mediated low-frequency otolith function of dizzy patients. To evaluate the feasibility of reaction time assessment in response to vertical motion induced by an elevator in healthy young individuals. We recorded linear acceleration/deceleration reaction times (LA-RT/LD-RT) of 20 healthy (13 female) subjects (mean age: 22 years ± 1 SD) as a measure of vertical vestibular motion perception. LA-RT/LD-RT were defined as the time elapsed from the start of elevator acceleration or deceleration to the time at which subjects in a sitting position indicated perceiving a change in velocity by pushing a button with their thumb. The light reaction time was measured as a reference. All 20 subjects tolerated the assessment with repeated elevator rides and reported no adverse events. Over all experiments, one upward and four downward rides had to be excluded for technical reasons (2.5%). The fraction of premature button presses varied among the four conditions, possibly related to elevator vibration (upward rides: LA-RT-up 66%, LD-RT-up 0%; downward rides: LA-RT-down 12%, LD-RT-down 4%). Thus LD-RT-up yielded the most robust results. The reaction time to earth-vertical deceleration elicited by an elevator provides a consistent indicator of linear vestibular motion perception in healthy humans. The testing procedure is inexpensive and easy to use. Deceleration on upward rides yielded the most robust measurements.