Neurological basis for eye movements of the blind

Rosalyn M Schneider; Matthew J Thurtell; Sylvia Eisele; Norah Lincoff; Elisa Bala; R John Leigh

doi:10.1371/journal.pone.0056556

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Neurological basis for eye movements of the blind

Journal article

Open access

Peer reviewed

Neurological basis for eye movements of the blind

Rosalyn M Schneider, Matthew J Thurtell, Sylvia Eisele, Norah Lincoff, Elisa Bala and R John Leigh

PloS one, Vol.8(2), pp.e56556-e56556

2013

DOI: 10.1371/journal.pone.0056556

PMCID: PMC3575504

PMID: 23441203

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Abstract

When normal subjects fix their eyes upon a stationary target, their gaze is not perfectly still, due to small movements that prevent visual fading. Visual loss is known to cause greater instability of gaze, but reported comparisons with normal subjects using reliable measurement techniques are few. We measured binocular gaze using the magnetic search coil technique during attempted fixation (monocular or binocular viewing) of 4 individuals with childhood-onset of monocular visual loss, 2 individuals with late-onset monocular visual loss due to age-related macular degeneration, 2 individuals with bilateral visual loss, and 20 healthy control subjects. We also measured saccades to visual or somatosensory cues. We tested the hypothesis that gaze instability following visual impairment is caused by loss of inputs that normally optimize the performance of the neural network (integrator), which ensures both monocular and conjugate gaze stability. During binocular viewing, patients with early-onset monocular loss of vision showed greater instability of vertical gaze in the eye with visual loss and, to a lesser extent, in the normal eye, compared with control subjects. These vertical eye drifts were much more disjunctive than upward saccades. In individuals with late monocular visual loss, gaze stability was more similar to control subjects. Bilateral visual loss caused eye drifts that were larger than following monocular visual loss or in control subjects. Accurate saccades could be made to somatosensory cues by an individual with acquired blindness, but voluntary saccades were absent in an individual with congenital blindness. We conclude that the neural gaze-stabilizing network, which contains neurons with both binocular and monocular discharge preferences, is under adaptive visual control. Whereas monocular visual loss causes disjunctive gaze instability, binocular blindness causes both disjunctive and conjugate gaze instability (drifts and nystagmus). Inputs that bypass this neural network, such as projections to motoneurons for upward saccades, remain conjugate.

Eye Movements

Humans

Middle Aged

Male

Vision, Monocular

Fixation, Ocular

Case-Control Studies

Saccades

Blindness

Vision, Binocular

Aged, 80 and over

Adult

Female

Aged

Details

Title: Subtitle: Neurological basis for eye movements of the blind
Creators: Rosalyn M Schneider - Veterans Affairs Medical Center, Case Western Reserve University, Cleveland, Ohio, United States of America
Matthew J Thurtell
Sylvia Eisele
Norah Lincoff
Elisa Bala
R John Leigh
Resource Type: Journal article
Publication Details: PloS one, Vol.8(2), pp.e56556-e56556
DOI: 10.1371/journal.pone.0056556
PMID: 23441203
PMCID: PMC3575504
NLM abbreviation: PLoS One
ISSN: 1932-6203
eISSN: 1932-6203
Publisher: United States
Grant note: R01 EY06717 / NEI NIH HHS
Language: English
Date published: 2013
Academic Unit: Neurology; Ophthalmology and Visual Sciences
Record Identifier: 9983980052002771

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