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Monocular and binocular contributions to oculomotor plasticity

Monocular and binocular contributions to oculomotor plasticity
Monocular and binocular contributions to oculomotor plasticity

Most eye movements in the real-world redirect the foveae to objects at a new depth and thus require the co-ordination of monocular saccade amplitudes and binocular vergence eye movements. Additionally to maintain the accuracy of these oculomotor control processes across the lifespan, ongoing calibration is required to compensate for errors in foveal landing positions. Such oculomotor plasticity has generally been studied under conditions in which both eyes receive a common error signal, which cannot resolve the long-standing debate regarding whether both eyes are innervated by a common cortical signal or by a separate signal for each eye. Here we examine oculomotor plasticity when error signals are independently manipulated in each eye, which can occur naturally owing to aging changes in each eye's orbit and extra-ocular muscles, or in oculomotor dysfunctions. We find that both rapid saccades and slow vergence eye movements are continuously recalibrated independently of one another and corrections can occur in opposite directions in each eye. Whereas existing models assume a single cortical representation of space employed for the control of both eyes, our findings provide evidence for independent monoculomotor and binoculomotor plasticities and dissociable spatial mapping for each eye.

2045-2322
Maiello, Guido
c122b089-1bbc-4d3e-b178-b0a1b31a5295
Harrison, William J.
7c04228c-fd4e-4b68-8d41-d8ac743dada4
Bex, Peter J.
6e6bd07d-1136-4163-91d1-1144ef209570
Maiello, Guido
c122b089-1bbc-4d3e-b178-b0a1b31a5295
Harrison, William J.
7c04228c-fd4e-4b68-8d41-d8ac743dada4
Bex, Peter J.
6e6bd07d-1136-4163-91d1-1144ef209570

Maiello, Guido, Harrison, William J. and Bex, Peter J. (2016) Monocular and binocular contributions to oculomotor plasticity. Scientific Reports, 6, [31861]. (doi:10.1038/srep31861).

Record type: Article

Abstract

Most eye movements in the real-world redirect the foveae to objects at a new depth and thus require the co-ordination of monocular saccade amplitudes and binocular vergence eye movements. Additionally to maintain the accuracy of these oculomotor control processes across the lifespan, ongoing calibration is required to compensate for errors in foveal landing positions. Such oculomotor plasticity has generally been studied under conditions in which both eyes receive a common error signal, which cannot resolve the long-standing debate regarding whether both eyes are innervated by a common cortical signal or by a separate signal for each eye. Here we examine oculomotor plasticity when error signals are independently manipulated in each eye, which can occur naturally owing to aging changes in each eye's orbit and extra-ocular muscles, or in oculomotor dysfunctions. We find that both rapid saccades and slow vergence eye movements are continuously recalibrated independently of one another and corrections can occur in opposite directions in each eye. Whereas existing models assume a single cortical representation of space employed for the control of both eyes, our findings provide evidence for independent monoculomotor and binoculomotor plasticities and dissociable spatial mapping for each eye.

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More information

Published date: 18 August 2016
Additional Information: Funding Information: This research was supported by National Institutes of Health grant R01EY021553. Author WJH was supported by a CJ Martin Fellowship from the National Health and Medical Research Council of Australia. Publisher Copyright: © The Author(s) 2016.
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Identifiers

Local EPrints ID: 485064
URI: http://eprints.soton.ac.uk/id/eprint/485064
DOI: doi:10.1038/srep31861
ISSN: 2045-2322
PURE UUID: 9092d644-6f88-42c3-b496-31476c6cf2f6
ORCID for Guido Maiello: ORCID iD orcid.org/0000-0001-6625-2583

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Date deposited: 28 Nov 2023 18:06
Last modified: 18 Mar 2024 04:11

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Author: Guido Maiello ORCID iD
Author: William J. Harrison
Author: Peter J. Bex

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