Pretectal neurons responding to slow wide-field retinal motion: could they compensate for slow drift during fixation?
Authors: Price, Nicholas SC; Ibbotson, Michael R
Source: Clinical & Experimental Ophthalmology, Volume 29, Number 3, June 2001 , pp. 201-205(5)
Publisher: Blackwell Publishing
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Abstract:
The visual response properties are described of a group of retinal slip neurons in the wallaby pretectum, referred to as slow cells. Their responses to motion are direction-selective: tempero-nasal and naso-temporal motion over the contralateral eye increase and decrease, respectively, the firing rate relative to the spontaneous level. Slow cells are maximally sensitive to image velocities from 0.08 to 10°/s. The present study focuses on slow cells that are maximally sensitive to image velocities below 1°/s. An interesting characteristic of 82% of slow cells is that once motion stops, the firing rate exhibits a same-sign after-response. This is characterized by a slow exponential return from the firing rate during motion to the spontaneous rate. The time constants of the after-responses are independent of the temporal frequency, velocity, duration and direction of the motion stimulus. It is proposed that the neurons may assist the stabilization of eye position during fixation.Keywords: direction-selective; fixation; motion detector; oculomotor system
Document Type: Research article
DOI: 10.1046/j.1442-9071.2001.00404.x
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