REVIEW ARTICLE: Cortical control of eye and head movements: integration of movements and percepts

The cortical control of eye movements is well known. It remains unclear, however, as to how the eye fields of the frontal lobes generate and coordinate eye and head movements. Here, we review the recent advances in electrical stimulation studies and evaluate relevant models. As electrical stimulatio...

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Bibliographic Details
Published inThe European journal of neuroscience Vol. 25; no. 5; pp. 1253 - 1264
Main Authors Longtang Chen, L., Tehovnik, Edward J.
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.03.2007
Subjects
eye field
gaze shift
human
monkey
phosphene
stimulation
Online AccessGet full text
ISSN0953-816X
1460-9568
DOI10.1111/j.1460-9568.2007.05392.x

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Summary:The cortical control of eye movements is well known. It remains unclear, however, as to how the eye fields of the frontal lobes generate and coordinate eye and head movements. Here, we review the recent advances in electrical stimulation studies and evaluate relevant models. As electrical stimulation is conducted in head‐unrestrained, behaving subjects with the evoked eye and head movements sometimes being indistinguishable from natural gaze shifts, a pertinent question becomes whether these movements are evoked by motor programs or sensory percepts. Recent stimulation studies in the visual cortex and the eye fields of the frontal lobes have begun to bring both possibilities to light. In addition, cognitive variables often interact with behavioral states that can affect movements evoked by stimulation. Identifying and controlling these variables are critical to our understanding of experimental results based on electrically evoked movements. This understanding is needed before one can draw inferences from such results to elucidate the neural mechanisms underlying natural and complex movements.
Bibliography:ark:/67375/WNG-4THQ2XCC-N
ArticleID:EJN5392
istex:FE174274C6BA40C39EE09FF0DF222F9E65F087B7
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Tehovnik & Lee, 1993
Fukushima
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In contrast, in the eye fields the activation threshold is in general higher for the head than the eyes
It remains unclear whether a head‐gating mechanism exists downstream from the eye fields.
Pelisson
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Fuchs
Head contribution to gaze shifts refers to the head displacement between gaze shift onset and gaze shift offset, during which the VOR is inhibited
Roy & Cullen, 2002
2005
and
2004b
2002
Gamlin (2002
et al
The total head displacement additionally includes pre‐gaze shift and post‐gaze shift head movements that may occur before and after gaze shifts; the VOR remains in action.
;
This review is focused on saccadic gaze shifts. For gaze shifts made by smooth pursuits and vergence, see recent reviews by
Tu & Keating, 2000
In the superior colliculus, it is shown that the current insufficient to elicit saccadic eye movements could sometimes evoke head movements, suggesting the head pathway has a relatively lower activation threshold compared with that of the saccadic eye pathway
Chen & Walton, 2005
Chen, 2006
ISSN:0953-816X
1460-9568
DOI:10.1111/j.1460-9568.2007.05392.x