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. 2024 Mar 11;20(1):4.
doi: 10.1186/s12993-024-00232-3.

Changes in effective connectivity during the visual-motor integration tasks: a preliminary f-NIRS study

Wenchen Wang  1   2 Haimei Li  1   2 Yufeng Wang  1   2 Lu Liu  3   4 Qiujin Qian  5   6
Affiliations

Changes in effective connectivity during the visual-motor integration tasks: a preliminary f-NIRS study

Wenchen Wang et al. Behav Brain Funct. .

Abstract

Background: Visual-motor integration (VMI) is an essential skill in daily life. The present study aimed to use functional near-infrared spectroscopy (fNIRS) technology to explore the effective connectivity (EC) changes among brain regions during VMI activities of varying difficulty levels.

Methods: A total of 17 healthy participants were recruited for the study. Continuous Performance Test (CPT), Behavior Rating Inventory of Executive Function-Adult Version (BRIEF-A), and Beery VMI test were used to evaluate attention performance, executive function, and VMI performance. Granger causality analysis was performed for the VMI task data to obtain the EC matrix for all participants. One-way ANOVA analysis was used to identify VMI load-dependent EC values among different task difficulty levels from brain network and channel perspectives, and partial correlation analysis was used to explore the relationship between VMI load-dependent EC values and behavioral performance.

Results: We found that the EC values of dorsal attention network (DAN) → default mode network (DMN), DAN → ventral attention network (VAN), DAN → frontoparietal network (FPN), and DAN → somatomotor network (SMN) in the complex condition were higher than those in the simple and moderate conditions. Further channel analyses indicated that the EC values of the right superior parietal lobule (SPL) → right superior frontal gyrus (SFG), right middle occipital gyrus (MOG) → left SFG, and right MOG → right postcentral gyrus (PCG) in the complex condition were higher than those in the simple and moderate conditions. Subsequent partial correlation analysis revealed that the EC values from DAN to DMN, VAN, and SMN were positively correlated with executive function and VMI performance. Furthermore, the EC values of right MOG → left SFG and right MOG → right PCG were positively correlated with attention performance.

Conclusions: The DAN is actively involved during the VMI task and thus may play a critical role in VMI processes, in which two key brain regions (right SPL, right MOG) may contribute to the EC changes in response to increasing VMI load. Meanwhile, bilateral SFG and right PCG may also be closely related to the VMI performance.

Keywords: Attention; Effective connectivity; Executive function; Visual-motor integration; f-NIRS.

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Conflict of interest statement

The authors declare that they have no competing interests.

Figures

Fig. 1
Fig. 1
Experimental setup. a The task pictures of the VMI test. b Overview of experimental design set up. c Positions of f-NIRS channels. d Photo obtained from a participant during the VMI task. DMN default mode network, DAN dorsal attention network, VAN ventral attention network, FPN frontoparietal network, SMN somatomotor network, VN visual network
Fig. 2
Fig. 2
Effective connectivity changes of brain networks and channels in three conditions. a EC matrix of all brain networks in simple condition; b EC matrix of all brain networks in moderate condition; c EC matrix of all brain networks in complex condition; d P-value matrix of brain networks among the three conditions (the white square in the P-value matrix represents no statistical differences in results, while the blue one represents significant differences); e, f significantly different EC values of channels among the three conditions. *Significant differences survived FDR correction for multiple testing (*P < 0.05, **P < 0.01). DMN default mode network, DAN dorsal attention network, VAN ventral attention network, FPN frontoparietal network, SMN somatomotor network, VN visual network
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