Agnes M F Wong1, James A Sharpe. 1. Division of Neurology, Department of Ophthalmology and Vision Science, University Health Network, University of Toronto, Ontario, Canada. agnes.wong@utoronto.ca
Abstract
BACKGROUND: Skew deviation is typically caused by brainstem damage, and has not been identified with focal cerebellar lesions. This vertical strabismus has been attributed to asymmetric disruption of vestibuloocular reflex (VOR) projections from otolithic receptors of the utricle to ocular motoneurons, but asymmetry of the utriculo-ocular counter-roll reflex has not been detected. METHODS: Lesions localized to the cerebellum were identified by MRI in five patients with vertical strabismus. Their skew deviation was measured by prism cover tests in all patients and by search coils in three patients. The angular VOR was tested in patients and 10 controls during sinusoidal +/- 10 degree torsional, vertical, and horizontal head-on-body rotations at 0.5, 1, and 2 Hz. Static torsional VOR gain was measured by the change in torsional eye position divided by change in head position during maintained head tilt. RESULTS: Static torsional VOR gains were asymmetric in each patient. Three patterns of asymmetry were identified: 1) decreased static gain in one eye in both directions; 2) decreased gains in both eyes in one direction; and 3) asymmetric gain in one direction in one eye alone. Dynamic torsional VOR gains were symmetrically reduced in both directions in both eyes in all patients. CONCLUSIONS: Focal cerebellar lesions can cause skew deviation. The static torsional vestibuloocular reflex (VOR) is linked to cerebellar control of vertical vergence. Asymmetry between the eyes or in direction of the static torsional VOR provides evidence that monocular or binocular imbalance of the utriculo-ocular reflex leads to cerebellar skew deviation.
BACKGROUND: Skew deviation is typically caused by brainstem damage, and has not been identified with focal cerebellar lesions. This vertical strabismus has been attributed to asymmetric disruption of vestibuloocular reflex (VOR) projections from otolithic receptors of the utricle to ocular motoneurons, but asymmetry of the utriculo-ocular counter-roll reflex has not been detected. METHODS: Lesions localized to the cerebellum were identified by MRI in five patients with vertical strabismus. Their skew deviation was measured by prism cover tests in all patients and by search coils in three patients. The angular VOR was tested in patients and 10 controls during sinusoidal +/- 10 degree torsional, vertical, and horizontal head-on-body rotations at 0.5, 1, and 2 Hz. Static torsional VOR gain was measured by the change in torsional eye position divided by change in head position during maintained head tilt. RESULTS: Static torsional VOR gains were asymmetric in each patient. Three patterns of asymmetry were identified: 1) decreased static gain in one eye in both directions; 2) decreased gains in both eyes in one direction; and 3) asymmetric gain in one direction in one eye alone. Dynamic torsional VOR gains were symmetrically reduced in both directions in both eyes in all patients. CONCLUSIONS:Focal cerebellar lesions can cause skew deviation. The static torsional vestibuloocular reflex (VOR) is linked to cerebellar control of vertical vergence. Asymmetry between the eyes or in direction of the static torsional VOR provides evidence that monocular or binocular imbalance of the utriculo-ocular reflex leads to cerebellar skew deviation.
Authors: Manokaraananthan Chandrakumar; Zahra Hirji; Herbert C Goltz; Giuseppe Mirabella; Alan W Blakeman; Linda Colpa; Agnes M F Wong Journal: Arch Ophthalmol Date: 2010-04
Authors: Herbert C Goltz; Giuseppe Mirabella; Joanne C Y Leung; Alan W Blakeman; Linda Colpa; Khaled Abuhaleeqa; Agnes M F Wong Journal: Vision Res Date: 2009-05-03 Impact factor: 1.886
Authors: Matthew Schlenker; Giuseppe Mirabella; Herbert C Goltz; Paul Kessler; Alan W Blakeman; Agnes M F Wong Journal: Invest Ophthalmol Vis Sci Date: 2008-09-04 Impact factor: 4.799
Authors: Maryam Fesharaki; Peter Karagiannis; Douglas Tweed; James A Sharpe; Agnes M F Wong Journal: Invest Ophthalmol Vis Sci Date: 2008-01 Impact factor: 4.799