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The Journal of Neurophysiology Vol. 83 No. 2 February 2000, pp. 1103-1107
Copyright ©2000 by the American Physiological Society
RAPID COMMUNICATION
1Laboratory of Neurophysiology, Université Catholique de Louvain, B-1200 Brussels, Belgium; and 2Centre for Systems Engineering and Applied Mechanics (CESAME), Université Catholique de Louvain, B-1348 Louvain-la-Neuve, Belgium
Coimbra, Alexandre J. F.,
Philippe Lefèvre,
Marcus Missal, and
Etienne Olivier.
Difference Between Visually and Electrically Evoked Gaze Saccades
Disclosed by Altering the Head Moment of Inertia. J. Neurophysiol. 83: 1103-1107, 2000. Differences
between gaze shifts evoked by collicular electrical stimulation and
those triggered by the presentation of a visual stimulus were studied
in head-free cats by increasing the head moment of inertia. This
maneuver modified the dynamics of these two types of gaze shifts by
slowing down head movements. Such an increase in the head moment of
inertia did not affect the metrics of visually evoked gaze saccades
because their duration was precisely adjusted to compensate for these
changes in movement dynamics. In contrast, the duration of electrically
evoked gaze shifts remained constant irrespective of the head moment of
inertia, and therefore their amplitude was significantly reduced. These
results suggest that visually and electrically evoked gaze saccades are
controlled by different mechanisms. Whereas the accuracy of visually
evoked saccades is likely to be assured by on-line feedback
information, the absence of duration adjustment in electrically evoked
gaze shifts suggests that feedback information necessary to maintain their metrics is not accessible or is corrupted during collicular stimulation. This is of great importance when these two types of
movements are compared to infer the role of the superior colliculus in
the control of orienting gaze shifts.
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