Vestibular contribution to path integration deficits in ‘at-genetic-risk’ for Alzheimer’s disease
Vestibular contribution to path integration deficits in ‘at-genetic-risk’ for Alzheimer’s disease
Path integration changes may precede a clinical presentation of Alzheimer’s disease by several years. Studies to date have focused on how spatial cell changes affect path integration in preclinical AD. However, vestibular input is also critical for intact path integration. Here, we developed the vestibular rotation task that requires individuals to manually point an iPad device in the direction of their starting point following rotational movement, without any visual cues. Vestibular features were derived from the sensor data using feature selection. Machine learning models illustrate that the vestibular features accurately classified Apolipoprotein E ε3ε4 carriers and ε3ε3 carrier controls (mean age 62.7 years), with 65% to 79% accuracy depending on task trial. All machine learning models produced a similar classification accuracy. Our results demonstrate the cross-sectional role of the vestibular system in Alzheimer’s disease risk carriers. Future investigations should examine if vestibular functions explain individual phenotypic heterogeneity in path integration among Alzheimer’s disease risk carriers.
Coughlan, Gillian
d202a575-3974-4929-9010-b4d946578bba
Plumb, William
551f24bb-c7b2-4736-9f1c-60b6096c38d7
Zhukovsky, Peter
22f2c5c6-7b13-41d8-8da5-8300b7a12784
Aung, Min Hane
6d1fdfb6-333f-4d3b-b848-865c86858636
Hornberger, Michael
a48c1c63-422a-4c11-9a51-c7be0aa3026d
Vann, Seralynne
515126aa-ac7f-4d82-9edc-da2b43b64360
3 January 2023
Coughlan, Gillian
d202a575-3974-4929-9010-b4d946578bba
Vann, Seralynne
515126aa-ac7f-4d82-9edc-da2b43b64360
Plumb, William
551f24bb-c7b2-4736-9f1c-60b6096c38d7
Zhukovsky, Peter
22f2c5c6-7b13-41d8-8da5-8300b7a12784
Aung, Min Hane
6d1fdfb6-333f-4d3b-b848-865c86858636
Hornberger, Michael
a48c1c63-422a-4c11-9a51-c7be0aa3026d
Coughlan, Gillian, Plumb, William, Zhukovsky, Peter, Aung, Min Hane and Hornberger, Michael
,
Vann, Seralynne
(ed.)
(2023)
Vestibular contribution to path integration deficits in ‘at-genetic-risk’ for Alzheimer’s disease.
PLoS ONE, 18 (1), [e0278239].
(doi:10.1371/journal.pone.0278239).
Abstract
Path integration changes may precede a clinical presentation of Alzheimer’s disease by several years. Studies to date have focused on how spatial cell changes affect path integration in preclinical AD. However, vestibular input is also critical for intact path integration. Here, we developed the vestibular rotation task that requires individuals to manually point an iPad device in the direction of their starting point following rotational movement, without any visual cues. Vestibular features were derived from the sensor data using feature selection. Machine learning models illustrate that the vestibular features accurately classified Apolipoprotein E ε3ε4 carriers and ε3ε3 carrier controls (mean age 62.7 years), with 65% to 79% accuracy depending on task trial. All machine learning models produced a similar classification accuracy. Our results demonstrate the cross-sectional role of the vestibular system in Alzheimer’s disease risk carriers. Future investigations should examine if vestibular functions explain individual phenotypic heterogeneity in path integration among Alzheimer’s disease risk carriers.
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Published date: 3 January 2023
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Local EPrints ID: 505269
URI: http://eprints.soton.ac.uk/id/eprint/505269
ISSN: 1932-6203
PURE UUID: f955ea17-e349-4804-89b6-47e5d611af71
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Date deposited: 02 Oct 2025 16:58
Last modified: 03 Oct 2025 02:18
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Contributors
Author:
Gillian Coughlan
Editor:
Seralynne Vann
Author:
William Plumb
Author:
Peter Zhukovsky
Author:
Min Hane Aung
Author:
Michael Hornberger
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