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  • Title: Suppressive control of optokinetic and vestibular nystagmus by the primate frontal eye field.
    Author: Izawa Y, Suzuki H.
    Journal: J Neurophysiol; 2020 Sep 01; 124(3):691-702. PubMed ID: 32727256.
    Abstract:
    When the eyes are fixated on a spot, fixation neurons in the frontal eye field (FEF) show an increase in activity. Our previous study suggested that fixation neurons in the FEF contribute to the suppression of saccades and smooth pursuit eye movements to maintain active fixation. The present study examined the role of the FEF in the suppressive control of reflexive eye movements, optokinetic and vestibular nystagmus, in trained monkeys. Electrical stimulation in the FEF suppressed the quick and slow phases of optokinetic and vestibular nystagmus at an intensity lower than the threshold for eliciting electrically evoked saccades. Relatively weak suppression influenced the slow phase of vestibular nystagmus. During optokinetic or vestibular nystagmus, presentation of a stationary small spot to the eyes followed by fixation is known to suppress both the quick and slow phases of eye movements. We recorded the activity of fixation neurons in the FEF and found that fixation neurons usually showed a decrease in activity during optokinetic and vestibular nystagmus and an increase in activity during the suppression of nystagmus by visual fixation. The present results show that the activity of fixation neurons in the FEF is related to the suppressive control of optokinetic and vestibular nystagmus for maintaining active fixation. We discuss the role of a generalized visual fixation system that can maintain visual attention on an interesting object.NEW & NOTEWORTHY In this study, electrical stimulation in the frontal eye field (FEF) suppressed the quick and slow phases of optokinetic and vestibular nystagmus at an intensity subthreshold for eliciting saccades. Furthermore, the activity of fixation neurons in the FEF was related to the suppression of optokinetic and vestibular nystagmus by visual fixation. This suggests that a common neuronal assembly in the FEF may contribute to the suppressive control of different functional classes of eye movements.
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