Lateralization Disruption and Dynamic Balance Alterations in Alzheimer's Disease: Impacts on Hemispheric Interaction and Cognitive Performance
Juan Wang, Yuxin Li, Yu Yang, Zhenhu Liang, Ping Xie, Xiaoli Li, Yina Guo, Shaobao Li, Xiaoling Chen

TL;DR
This study shows that Alzheimer's disease disrupts the brain's normal left-right balance, affecting how the two hemispheres communicate and leading to worse cognitive performance.
Contribution
The study introduces dynamic laterality index analysis to reveal disrupted hemispheric balance in Alzheimer's disease.
Findings
AD patients showed stronger right lateralization and loss of left lateralization in key brain networks.
Abnormal lateralization metrics correlated with worse cognitive performance in AD patients.
Higher order cognitive networks with high lateralization were more vulnerable to disruption in AD.
Abstract
Brain lateralization is considered evolutionarily adaptive. Impaired functional specialization is thought to cause abnormal lateralization in neurological disorders. However, the dynamic changes in brain laterality in Alzheimer's disease (AD) remain unclear. In this study, resting‐state fMRI data and neuropsychological assessments from 109 participants (49 ad patients and 60 healthy controls [HC]) were used. Dynamic laterality time series were constructed by extracting the dynamic laterality index (DLI) within each sliding window. We assessed two key features: laterality reversal (LR), reflecting intra‐hemispheric processing efficiency, and laterality fluctuation (LF), indicating inter‐hemispheric communication. Group differences in dynamic laterality characteristics were analyzed using statistically rigorous methods, regressing out gender, age, years of education, and head movements.…
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Taxonomy
TopicsHemispheric Asymmetry in Neuroscience · Functional Brain Connectivity Studies · Transcranial Magnetic Stimulation Studies
