Lagrèze W D, Sireteanu R
Neurophysiologische Abteilung Max-Planck-Institut für Hirnforschung, Frankfurt.
Klin Monbl Augenheilkd. 1992 Aug;201(2):92-6.
Spatial distortions, i.e. spatial localization errors, and precision of localization were measured monocularly in the central visual field of 7 normal observers, 17 strabismic amblyopes and 2 anisometropic amblyopes. The task of the subjects was to construct circles of 2 degrees, 4 degrees and 6 degrees radius around a fixation point, using the dominant and the amblyopic eye in turn. Normal observers set distances on the vertical meridian smaller than distances on the horizontal meridian. Anisometropic amblyopes showed localization errors and variances similar to those of normal observers. The amblyopic eyes of strabismic observers with a large angle strabismus and deep amblyopia showed significant, individually different localization errors correlating with the depth of amblyopia. Strabismics with microstrabismus exhibited parallels between monocular localization and dichoptic retinal correspondence.
在7名正常观察者、17名斜视性弱视患者和2名屈光参差性弱视患者的中心视野中,单眼测量了空间扭曲,即空间定位误差和定位精度。受试者的任务是依次使用优势眼和弱视眼,围绕一个固定点构建半径为2度、4度和6度的圆圈。正常观察者在垂直子午线上设定的距离小于在水平子午线上设定的距离。屈光参差性弱视患者表现出与正常观察者相似的定位误差和方差。斜视角度大且弱视程度深的斜视性观察者的弱视眼表现出显著的、个体不同的定位误差,且与弱视程度相关。患有微小斜视的斜视患者在单眼定位和双眼视网膜对应之间表现出平行关系。