Blinks are known to affect eye movements, e.g., saccades, slow and fast vergence,
and saccade-vergence interaction, in two ways by: superimposition of blink-associated
eye movements and changes of the central premotor activity in the brainstem. The goal
of this study was to determine, for the first time, the effects of trigeminal-evoked
blinks on ongoing smooth pursuit eye movements which could be related to visual sensory
or premotor neuronal changes. This was compared to the effect of a target disappearing
for 100 to 300 ms duration during ongoing smooth pursuit (blank paradigm), in order
to control for the visual sensory effects of a blink. Eye and blink movements were
recorded in eight healthy subjects with the scleral search coil technique.
Blink associated eye movements during the first 50% of the blink duration were non-linearly
superimposed on the smooth pursuit eye movements. Immediately after the blink-associated
eye movements, the pursuit velocity slowly decreased by an average of 3.2+2.1 deg/s.
This decrease was not dependent on the stimulus direction. The pursuit velocity decrease
caused by blinks which occluded the pupil more than 50% could be explained mostly
by blanking the visual target. However, small blinks that did not occlude the pupil
(<10% of lid closure) also decreased smooth pursuit velocity.
Thus, this blink effect on pursuit velocity cannot be explained by blink-associated
eye movements or by the blink having blanked the visual input. We propose that part
of this effect might either be caused by incomplete visual suppression during blinks
or a change of the neuronal activity in omnipause neuron activity.
