Pupillometry as a biomarker of postural control: Deep-learning models reveal side-specific pupillary responses to increased intensity of balance tasks.

IF 2.9 2区 心理学 Q2 NEUROSCIENCES Psychophysiology Pub Date : 2024-12-01 Epub Date: 2024-08-12 DOI:10.1111/psyp.14667
Jernej Rosker, Tinka Leskovec, Katja Tomazin, Ziva Majcen Rosker
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Abstract

Pupillometry has been used in the studies of postural control to assess cognitive load during dual tasks, but its response to increased balance task intensity has not been investigated. Furthermore, it is unknown whether side-specific changes in pupil diameter occur with more demanding balance tasks providing additional insights into postural control. The two aims of this study were to analyze differences in steady-state pupil diameter between balance tasks with increased intensity and to determine whether there are side-specific changes. Forty-eight healthy subjects performed parallel and left and right one-legged stances on a force plate with and without foam with right and left pupil diameters measured with a mobile infrared eye-tracker. Differences between balance tasks in parameters (average pupil diameter of each eye, average of both pupil diameters and the difference between the left and right pupil diameter) were analyzed using a two-way repeated measures analysis of variance, and deep learning neural network models were used to investigate how pupillometry predicted each balance task. The pupil diameter of the left eye, the average pupil diameter of both eyes and the difference in pupil diameters increased statistically significantly from simpler to more demanding balance tasks, with this being more pronounced for the left eye. The deep learning neural network models revealed side-specific changes in pupil diameter with more demanding balance tasks. This study confirms pupillary responses to increased intensity of balance task and indicates side-specific pupil responses that could be related to task-specific involvement of higher levels of postural control.

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瞳孔测量作为姿势控制的生物标记:深度学习模型揭示了特定侧瞳孔对增加平衡任务强度的反应。
在姿势控制研究中,瞳孔测量法一直被用于评估双重任务中的认知负荷,但其对平衡任务强度增加的反应尚未进行过研究。此外,瞳孔直径是否会随着要求更高的平衡任务而发生特定侧的变化,从而为姿势控制提供更多的洞察力,这一点尚不清楚。本研究的两个目的是分析强度增加的平衡任务之间稳态瞳孔直径的差异,并确定是否存在侧面特异性变化。48 名健康受试者在有泡沫和无泡沫的受力板上进行平行和左右单腿站立,并用移动式红外眼球跟踪仪测量左右瞳孔直径。使用双向重复测量方差分析分析了不同平衡任务在参数(每只眼睛的平均瞳孔直径、两只眼睛的平均瞳孔直径以及左右瞳孔直径之差)上的差异,并使用深度学习神经网络模型研究了瞳孔测量如何预测每项平衡任务。左眼的瞳孔直径、双眼的平均瞳孔直径和瞳孔直径的差异在统计上显著增加,从较简单的平衡任务到要求较高的平衡任务,左眼的增加更为明显。深度学习神经网络模型显示,在要求更高的平衡任务中,瞳孔直径会发生特定侧的变化。这项研究证实了瞳孔对更高强度的平衡任务的反应,并表明特定侧的瞳孔反应可能与特定任务涉及更高水平的姿势控制有关。
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来源期刊
Psychophysiology
Psychophysiology 医学-神经科学
CiteScore
6.80
自引率
8.10%
发文量
225
审稿时长
2 months
期刊介绍: Founded in 1964, Psychophysiology is the most established journal in the world specifically dedicated to the dissemination of psychophysiological science. The journal continues to play a key role in advancing human neuroscience in its many forms and methodologies (including central and peripheral measures), covering research on the interrelationships between the physiological and psychological aspects of brain and behavior. Typically, studies published in Psychophysiology include psychological independent variables and noninvasive physiological dependent variables (hemodynamic, optical, and electromagnetic brain imaging and/or peripheral measures such as respiratory sinus arrhythmia, electromyography, pupillography, and many others). The majority of studies published in the journal involve human participants, but work using animal models of such phenomena is occasionally published. Psychophysiology welcomes submissions on new theoretical, empirical, and methodological advances in: cognitive, affective, clinical and social neuroscience, psychopathology and psychiatry, health science and behavioral medicine, and biomedical engineering. The journal publishes theoretical papers, evaluative reviews of literature, empirical papers, and methodological papers, with submissions welcome from scientists in any fields mentioned above.
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