Heliyon (Sep 2024)
The influence of traditional Chinese exercise on brain function compared with other sports: A meta-analysis on functional neuroimaging studies
Abstract
Traditional Chinese Exercise (TCE) has been shown to improve quality of life, and functional magnetic resonance imaging (fMRI) is a highly used method for investigating its mechanism. However, there is currently a lack of systematic reviews and meta-analyses focusing on TCE-related brain changes. This study aims to fill this gap by conducting a meta-analysis on brain changes of TCE with fMRI technology. We searched relevant studies published until February 2024. Independent researchers conducted literature screening, quality assessment, and clinical and neuroimaging data extraction. Focis were filtered from eligible studies, and meta-analysis was performed using seed-based d mapping. Twenty-three studies involving 1182 participants were included in this study. The result found that longitudinal TCE increased brain activity in the left anterior cingulate gyri, right fusiform gyrus, right middle temporal gyrus, left middle occipital gyrus and left frontal superior compared with other exercises or healthcare. Subgroup analysis showed that the brain activity in the right superior frontal gyrus dorsolateral; right cortico-spinal projections; corpus callosum; right inferior network; right gyrus rectus; left middle occipital gyrus were decreased after TCE compared to other exercise among healthy participants. The right median cingulate gyri was increased after Baduanjin (one of the TCE) compared to other exercise; the left precentral gyrus activity was increased after Tai chi chuan (TCC) practice compared to other exercise. The brain activity in the right insula, right supplementary motor area, and left anterior thalamic were significantly increased after long-time TCC exercise. TCE effectively improved the cognitive level of the subjects. Among them, the MoCA score increased, but Memory Quotient was not improved. Research results indicate that TCE have specific neuromodulatory effects, and different TCE have different neuromodulatory patterns.