%0 Journal Article
%T EEG Activity during Pursuit and Saccade Visual Strategies to Predict the Arrival Position of a Target.
%A Koshizawa R
%A Oki K
%A Takayose M
%J J Integr Neurosci
%V 23
%N 6
%D 2024 May 29
%M 38940093
%F 1.664
%R 10.31083/j.jin2306108
%X <B>BACKGROUND: </B>In this study, we used electroencephalogram (EEG) to investigate the activity pattern of the cerebral cortex related to visual pursuit and saccade strategies to predict the arrival position of a visual target. In addition, we clarified the differences in the EEG of those who could predict the arrival position well using the saccade strategy compared to those who were not proficient.<BR><B>METHODS: </B>Sixteen participants performed two tasks: the "Pursuit Strategy Task (PST)" and the "Saccade Strategy Task (SST)" while undergoing EEG. For the PST, the participants were instructed to follow the target with their eyes throughout its trajectory and indicate when it reached the final point. For the SST, the participants were instructed to shift their gaze to the end point of arrival once they had predicted it.<BR><B>RESULTS: </B>Low beta EEG activity at the Oz, Cz, and CP2 electrodes was significantly higher during the SST than during the PST. In addition, low beta EEG activity at P7 electrode was significantly higher in the group showing a small position error (PE) than in the group showing a large PE at response.<BR><B>CONCLUSIONS: </B>EEG activity at the Oz, Cz, and CP2 electrodes during the SST may reflect visuospatial attention to the moving target, the tracking of moving targets, and the focus on the final destination position. In addition, EEG activity at P7 electrode may more accurately detect the speed and direction of the moving target by the small PE group at response.