Abnormal Scanning Patterns Based on Eye Movement Entropy in Early Psychosis.

Biological psychiatry. Cognitive neuroscience and neuroimaging Pub Date : 2024-06-21 DOI:10.1016/j.bpsc.2024.06.003

Dan Zhang, Chunyan Ma, Lihua Xu, Xu Liu, Huiru Cui, Yanyan Wei, Wensi Zheng, Yawen Hong, Yuou Xie, Zhenying Qian, Yegang Hu, Yingying Tang, Chunbo Li, Zhi Liu, Tao Chen, Haichun Liu, Tianhong Zhang, Jijun Wang

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Abstract

Background: Restricted scan path mode is hypothesized to explain abnormal scanning patterns in patients with schizophrenia. Here, we calculated entropy scores (drawing on gaze data to measure the statistical randomness of eye movements) to quantify how strategical and random participants were when processing image stimuli.

Methods: Eighty-six patients with first-episode schizophrenia (FES), 124 individuals at clinical high risk (CHR) for psychosis, and 115 healthy control participants (HCs) completed an eye-tracking examination while freely viewing 35 static images (each presented for 10 seconds) and cognitive assessments. We compared group differences in the overall entropy score, as well as entropy scores under various conditions. We also investigated the correlations between entropy scores and symptoms and cognitive function.

Results: Increased overall entropy scores were noted in the FES and CHR groups compared with the HC group, and these differences were already apparent within 0 to 2.5 seconds. In addition, the CHR group exhibited higher entropy than the HC group when viewing low-meaning images. Moreover, the entropy within 0 to 2.5 seconds showed significant correlations with negative symptoms in the FES group, attention/vigilance scores in the CHR group, and speed of processing and attention/vigilance scores across all 3 groups.

Conclusions: The results indicate that individuals with FES and those at CHR scanned pictures more randomly and less strategically than HCs. These patterns also correlated with clinical symptoms and neurocognition. The current study highlights the potential of the eye movement entropy measure as a neurophysiological marker for early psychosis.

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基于早期精神病患者眼动熵的异常扫描模式。

背景：限制性扫描路径模式被认为可以解释精神分裂症患者的异常扫描模式。在此，我们计算了熵分数（利用注视数据来测量眼球运动的统计随机性），以量化参与者处理图像刺激的策略性和随机性：86名首发精神分裂症患者（FES）、124名精神病临床高危人群（CHR）和115名健康对照组（HCs）完成了自由观看35张静态图像（每张图像显示10秒）的眼动追踪检查和认知评估。我们比较了总体熵分和不同条件下熵分的组间差异。此外，我们还研究了熵值与症状和认知功能之间的相关性：结果：FES 组和 CHR 组的总体熵值相对于 HC 组有所增加，而且这些差异在 0∼2.5 秒内就已经很明显。此外，与 HCs 相比，CHR 组在观看低意义图像时表现出更高的熵。此外，0∼2.5 秒内的熵与 FES 组的负性症状、CHR 组的注意力/警觉性评分以及所有三组的处理速度和注意力/警觉性评分均有显著相关性：结论：研究结果表明，FES 和 CHR 比 HC 扫描图片更随意，策略性更弱。这些模式还与临床症状和神经认知相关。本研究强调了眼动熵测量作为早期精神病神经生理学标记的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biological psychiatry. Cognitive neuroscience and neuroimaging

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