Abstract
BackgroundThe initiation of memory guided saccades is known to be controlled by the frontal eye field (FEF). Recent physiological studies showed the existence of an area close to FEF that controls also vergence initiation and execution. This study is to explore the effect of transcranial magnetic simulation (TMS) over FEF on the control of memory-guided saccade-vergence eye movements.Methodology/Principal FindingsSubjects had to make an eye movement in dark towards a target flashed 1 sec earlier (memory delay); the location of the target relative to fixation point was such as to require either a vergence along the median plane, or a saccade, or a saccade with vergence; trials were interleaved. Single pulse TMS was applied on the left or right FEF; it was delivered at 100 ms after the end of memory delay, i.e. extinction of fixation LED that was the “go” signal. Twelve healthy subjects participated in the study. TMS of left or right FEF prolonged the latency of all types of eye movements; the increase varied from 21 to 56 ms and was particularly strong for the divergence movements. This indicates that FEF is involved in the initiation of all types of memory guided movement in the 3D space. TMS of the FEF also altered the accuracy but only for leftward saccades combined with either convergence or divergence; intrasaccadic vergence also increased after TMS of the FEF.Conclusions/SignificanceThe results suggest anisotropy in the quality of space memory and are discussed in the context of other known perceptual motor anisotropies.
Highlights
Short-term memory, called working memory, is a high level cognitive process of limited capacity [1]
We calculated the percentage of latency changes after transcranial magnetic simulation (TMS), i.e. (TMS noTMS)/noTMS, and found that such percentage was higher for divergence (28% for TMS of right frontal eye field (FEF), 23% for TMS of left FEF) than other type of eye movements
Increase of latency after TMS of FEF TMS over the FEF delivering at 100 ms after the extinction of the fixation point could interfere with the fixation disengagement process
Summary
Short-term memory, called working memory, is a high level cognitive process of limited capacity [1]. It has generated much interest recently because of its importance to many higher brain functions and the evolution of powerful techniques to study brain function, such as event-related potentials [2], positron emission tomography [3], functional Magnetic Resonance Imaging [4] and transcranial magnetic stimulation [5]. We introduce a paradigm with targets flashed at unpredictable locations calling either for a saccade, or a vergence, or combined saccade-vergence movements Such stimuli interleaving depth and direction components reproduce better natural situations and needs short term memory of targets. This study is to explore the effect of transcranial magnetic simulation (TMS) over FEF on the control of memory-guided saccadevergence eye movements
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