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Mechanisms compensating for visual field restriction in adolescents with damage to the retro-geniculate visual system

Jacobson, L ; Lennartsson, F LU ; Pansell, T ; Öqvist Seimyr, G and Martin, L (2012) In Eye (London, England) 26(11). p.45-1437
Abstract

BACKGROUND: To describe visual field (VF) outcome in three adolescents with damage to the optic radiation and to focus on mechanisms that may compensate the practical functional limitations of VF defects.

DESIGN: Descriptive, prospective multi-case study in a hospital setting.

PARTICIPANTS: Three teenagers with cerebral visual dysfunction because of damage to the retro-geniculate visual pathways.

METHODS: Best-corrected visual acuity and eye alignment were assessed. Visual field function was tested with Goldmann perimetry, and with Rarebit, Humphrey Visual Field Analyzer and Esterman computerized techniques. Fixation was registered with video oculography during Rarebit examination. Magnetic resonance imaging of the... (More)

BACKGROUND: To describe visual field (VF) outcome in three adolescents with damage to the optic radiation and to focus on mechanisms that may compensate the practical functional limitations of VF defects.

DESIGN: Descriptive, prospective multi-case study in a hospital setting.

PARTICIPANTS: Three teenagers with cerebral visual dysfunction because of damage to the retro-geniculate visual pathways.

METHODS: Best-corrected visual acuity and eye alignment were assessed. Visual field function was tested with Goldmann perimetry, and with Rarebit, Humphrey Visual Field Analyzer and Esterman computerized techniques. Fixation was registered with video oculography during Rarebit examination. Magnetic resonance imaging of the brain illustrated brain damage and its relation to the posterior visual system.

RESULTS: One of the three subjects had bilateral asymmetric white matter damage of immaturity, early-onset exotropia, and a relative homonymous VF defect, but normal binocular VF. The second subject also had bilateral asymmetric white matter damage of immaturity and showed an inferior right quadrantanopia, confirmed by the binocular field. Registration of fixation revealed automatic scanning during perimetry. The third subject had an almost total left homonymous hemianopia after resection of a brain tumour in the right temporal lobe. The hemianopia could be compensated for by fast voluntary scanning.

CONCLUSION: Congenital and later-acquired homonymous VF defects may, at least in young subjects, be compensated for by scanning. Exotropia may compensate VF defects and, therefore, the VF should be tested before strabismus surgery.

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author
; ; ; and
publishing date
type
Contribution to journal
publication status
published
subject
keywords
Adolescent, Brain Neoplasms/complications, Cerebral Palsy/complications, Exotropia/etiology, Eye Movements/physiology, Fixation, Ocular/physiology, Geniculate Bodies/physiopathology, Hemianopsia/etiology, Humans, Magnetic Resonance Imaging, Male, Prospective Studies, Vision, Binocular/physiology, Visual Acuity/physiology, Visual Field Tests, Visual Fields/physiology, Visual Pathways/physiopathology
in
Eye (London, England)
volume
26
issue
11
pages
45 - 1437
publisher
Nature Publishing Group
external identifiers
  • scopus:84869041624
  • pmid:22995940
ISSN
0950-222X
DOI
10.1038/eye.2012.190
language
English
LU publication?
no
id
b5cccb97-246f-4002-8cd6-db400523e010
date added to LUP
2021-10-11 09:47:02
date last changed
2024-01-05 17:18:51
@article{b5cccb97-246f-4002-8cd6-db400523e010,
  abstract     = {{<p>BACKGROUND: To describe visual field (VF) outcome in three adolescents with damage to the optic radiation and to focus on mechanisms that may compensate the practical functional limitations of VF defects.</p><p>DESIGN: Descriptive, prospective multi-case study in a hospital setting.</p><p>PARTICIPANTS: Three teenagers with cerebral visual dysfunction because of damage to the retro-geniculate visual pathways.</p><p>METHODS: Best-corrected visual acuity and eye alignment were assessed. Visual field function was tested with Goldmann perimetry, and with Rarebit, Humphrey Visual Field Analyzer and Esterman computerized techniques. Fixation was registered with video oculography during Rarebit examination. Magnetic resonance imaging of the brain illustrated brain damage and its relation to the posterior visual system.</p><p>RESULTS: One of the three subjects had bilateral asymmetric white matter damage of immaturity, early-onset exotropia, and a relative homonymous VF defect, but normal binocular VF. The second subject also had bilateral asymmetric white matter damage of immaturity and showed an inferior right quadrantanopia, confirmed by the binocular field. Registration of fixation revealed automatic scanning during perimetry. The third subject had an almost total left homonymous hemianopia after resection of a brain tumour in the right temporal lobe. The hemianopia could be compensated for by fast voluntary scanning.</p><p>CONCLUSION: Congenital and later-acquired homonymous VF defects may, at least in young subjects, be compensated for by scanning. Exotropia may compensate VF defects and, therefore, the VF should be tested before strabismus surgery.</p>}},
  author       = {{Jacobson, L and Lennartsson, F and Pansell, T and Öqvist Seimyr, G and Martin, L}},
  issn         = {{0950-222X}},
  keywords     = {{Adolescent; Brain Neoplasms/complications; Cerebral Palsy/complications; Exotropia/etiology; Eye Movements/physiology; Fixation, Ocular/physiology; Geniculate Bodies/physiopathology; Hemianopsia/etiology; Humans; Magnetic Resonance Imaging; Male; Prospective Studies; Vision, Binocular/physiology; Visual Acuity/physiology; Visual Field Tests; Visual Fields/physiology; Visual Pathways/physiopathology}},
  language     = {{eng}},
  number       = {{11}},
  pages        = {{45--1437}},
  publisher    = {{Nature Publishing Group}},
  series       = {{Eye (London, England)}},
  title        = {{Mechanisms compensating for visual field restriction in adolescents with damage to the retro-geniculate visual system}},
  url          = {{http://dx.doi.org/10.1038/eye.2012.190}},
  doi          = {{10.1038/eye.2012.190}},
  volume       = {{26}},
  year         = {{2012}},
}