An analysis of the dependence of saccadic latency on target position and target characteristics in human subjects

Darrien, J.H., Herd, K., Starling, L.J., Rosenberg, J.R. and Morrison, J.D. (2001) An analysis of the dependence of saccadic latency on target position and target characteristics in human subjects. BMC Neuroscience, 2(13),

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Abstract

Background Predictions from conduction velocity data for primate retinal ganglion cell axons indicate that the conduction time to the lateral geniculate nucleus for stimulation of peripheral retina should be no longer than for stimulation of central retina. On this basis, the latency of saccadic eye movements should not increase for more peripherally located targets. However, previous studies have reported relatively very large increases, which has the implication of a very considerable increase in central processing time for the saccade-generating system. Results In order to resolve this paradox, we have undertaken an extended series of experiments in which saccadic eye movements were recorded by electro-oculography in response to targets presented in the horizontal meridian in normal young subjects. For stationary or moving targets of either normal beam intensity or reduced red intensity, with the direction of gaze either straight ahead with respect to the head or directed eccentrically, the saccadic latency was shown to remain invariant with respect to a wide range of target angular displacements. Conclusions These results indicate that, irrespective of the angular displacement of the target, the direction of gaze or the target intensity, the saccade-generating system operates with a constant generation time.

Item Type:Articles
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Morrison, Dr James and Rosenberg, Prof Jay
Authors: Darrien, J.H., Herd, K., Starling, L.J., Rosenberg, J.R., and Morrison, J.D.
Subjects:R Medicine > RC Internal medicine > RC0321 Neuroscience. Biological psychiatry. Neuropsychiatry
College/School:College of Medical Veterinary and Life Sciences > School of Life Sciences
Journal Name:BMC Neuroscience
Publisher:Biomed Central
ISSN:1471-2202
First Published:First published in BMC Neuroscience 2(13)

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