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Abstract
PurposeThe objective of our study was to examine horizontal smooth pursuit performance in strabismic children and in children with vergence deficits, and to compare these data with those recorded in a group of control age-matched children.MethodsBinocular eye movements were recorded by video-oculography in ten strabismic children (mean age: 9.8±0.8) and seven children with vergence deficits (mean age: 10.8±0.6). Data were compared to that of age-matched control children (mean age: 9.8±0.8 years).ResultsCatch-up saccades amplitude in strabismic children and in children with vergence deficits were significantly higher than in control age-matched children. Moreover, in strabismic children the amplitude of catch-up saccades was significantly higher in rightward than in leftward direction. The number of catch-up saccades was also significantly higher in rightward than in leftward direction. The gain value of pursuits in rightward direction was significantly higher in the right eye than in the left one; for the right eye, the gain value was significantly higher in rightward than in leftward direction. Binocular coordination of pursuit was better in control age-matched children than in children with vergence deficits and than in strabismic children.ConclusionsBinocular coordination of pursuit is abnormal in children with vergence deficits and worse in strabismic children. Binocular vision plays an important role in improving binocular coordination of pursuit.
Highlights
Smooth pursuits are slow conjugate movements which maintain the image of a moving object close to the fovea, the area of highest acuity on the retina
Amplitude of the catch-up saccades Figure 1 shows the mean amplitude of catch-up saccades in strabismic children, in children with vergence deficits and in control age-matched children
In children with vergence deficits the amplitude of catch-up saccades in rightward direction was significantly higher than that measured in non-strabismic children (p,0.05)
Summary
Smooth pursuits are slow conjugate movements which maintain the image of a moving object close to the fovea, the area of highest acuity on the retina. To maintain the moving object’s image on the fovea, eye velocity must correspond as much as possible to the speed of the moving object. Pursuit gain improves and the number of catchup saccades decreases significantly, reaching adult values during adolescence [2,4]. These authors suggest that the improvement in smooth pursuits reported during childhood and teenagehood is related to the maturation of brain myelination, which progresses from dorsal to ventral brain regions [5]
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