高空暴露会导致大脑功能网络模块化增加,同时在视觉工作记忆的早期处理中注意力资源占用增加。
High-altitude exposure leads to increased modularity of brain functional network with the increased occupation of attention resources in early processing of visual working memory.
作者信息
Zhou Jing, Wang Nian-Nian, Huang Xiao-Yan, Su Rui, Li Hao, Ma Hai-Lin, Liu Ming, Zhang De-Long
机构信息
Key Laboratory of Brain, Cognition and Education Sciences, Ministry of Education, South China Normal University, Guangzhou, China.
School of Psychology, Center for Studies of Psychological Application, and Guangdong Key Laboratory of Mental Health and Cognitive Science, South China Normal University, Guangzhou, China.
出版信息
Cogn Neurodyn. 2024 Oct;18(5):1-20. doi: 10.1007/s11571-024-10091-3. Epub 2024 Mar 15.
UNLABELLED
Working memory is a complex cognitive system that temporarily maintains purpose-relevant information during human cognition performance. Working memory performance has also been found to be sensitive to high-altitude exposure. This study used a multilevel change detection task combined with Electroencephalogram data to explore the mechanism of working memory change from high-altitude exposure. When compared with the sea-level population, the performance of the change detection task with 5 memory load levels was measured in the Han population living in high-altitude areas, using the event-related potential analysis and task-related connectivity network analysis. The topological analysis of the brain functional network showed that the normalized modularity of the high-altitude group was higher in the memory maintenance phase. Event-related Potential analysis showed that the peak latencies of P1 and N1 components of the high-altitude group were significantly shorter in the occipital region, which represents a greater attentional bias in visual early processing. Under the condition of high memory loads, the high-altitude group had a larger negative peak in N2 amplitude compared to the low-altitude group, which may imply more conscious processing in visual working memory. The above results revealed that the visual working memory change from high-altitude exposure might be derived from the attentional bias and the more conscious processing in the early processing stage of visual input, which is accompanied by the increase of the modularity of the brain functional network. This may imply that the attentional bias in the early processing stages have been influenced by the increased modularity of the functional brain networks induced by high-altitude exposure.
SUPPLEMENTARY INFORMATION
The online version contains supplementary material available at 10.1007/s11571-024-10091-3.
未标注
工作记忆是一个复杂的认知系统,在人类认知过程中临时维持与目的相关的信息。研究还发现工作记忆表现对高海拔暴露敏感。本研究采用多级变化检测任务结合脑电图数据,探讨高海拔暴露导致工作记忆变化的机制。与海平面人群相比,对生活在高海拔地区的汉族人群进行了5种记忆负荷水平的变化检测任务表现测量,并采用事件相关电位分析和任务相关连通性网络分析。脑功能网络的拓扑分析表明,高海拔组在记忆维持阶段的标准化模块化程度更高。事件相关电位分析表明,高海拔组枕叶区域P1和N1成分的峰潜伏期明显更短,这表明在视觉早期处理中存在更大的注意偏向。在高记忆负荷条件下,高海拔组与低海拔组相比,N2波幅的负向峰值更大,这可能意味着在视觉工作记忆中有更多的有意识加工。上述结果表明,高海拔暴露导致的视觉工作记忆变化可能源于视觉输入早期处理阶段的注意偏向和更多的有意识加工,同时伴随着脑功能网络模块化程度的增加。这可能意味着早期处理阶段的注意偏向受到高海拔暴露引起的功能性脑网络模块化增加的影响。
补充信息
在线版本包含可在10.1007/s11571-024-10091-3获取的补充材料。
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