经直接与间接通路的视动震颤(OKN)眼动反应

采用鼻向及颞光栅图形刺激猫的半侧视网膜,以探讨鼻侧半神网膜至视束核的视动震颤直接通路及颞侧半视网膜经皮层至ＮＯＴ的间接通路对ＯＫＮ眼动反应的神经控制特性。实验结果显示：高速度刺激的闭环ＯＫＮ反应及开环ＯＫＮ反应均对鼻向运动刺激有明显的方向选择性;半侧视网膜刺激时,鼻侧半视网膜的鼻向ＯＫＮ增益明显高于颞侧半视网膜的鼻向增益,说明猫的ＫＯＮ眼动反应以跟踪鼻向运动为主,并且这种对鼻向运动刺激选择性主要来     

运动图形刺激时家兔的视动震颤反应

旨在用实验方法研究家兔的视动震颤（ＯＫＮ）眼动特点以及单侧前庭迷路损伤对ＯＫＮ的影响,结果表明：单眼刺激时,家兔的ＯＫＮ反应存在着从颞侧到鼻侧方向的方向优势;恒定速度刺激时,刺激开始后,家兔的ＯＫＮ眼动跟踪速度具有从小到大最后趋于稳态的建立过程,刺激消失后,存在眼动速度由大到小直到消失的视动后震颤（ＯＫＡＮ）反应,这两个过程反应了ＯＫＮ系统中可能存在速度存储机制及其对ＯＫＮ眼动的控制作用;单侧前庭     

家兔的开环及闭环视动震颤（OKN）研究

研究了家兔闭环及开环状态的ＯＫＮ反应。闭环时,ＯＫＮ眼动速度与刺激速度成正比,增益接近１。当固定受刺激眼形成开环状态时,ＯＫＮ眼动速度远大于刺激速度,增益可达１０２左右,说明ＯＫＮ系统是由运动跟踪的负反馈机制控制的;刺激范围缩小则眼动反应减弱,表明ＯＫＮ系统对运动信息具有空间总和作用;以视野中不同高度的局部刺激时,发现视网膜中央视带比周边部对ＯＫＮ刺激的敏感性高;单光点刺激视带中央可诱发出清楚的ＯＫＮ反应,这为临床上应用ＯＫＮ客观测定视网膜功能和运动感知提供了可能性。     

家兔视动震颤(OKN)眼动反应的方向特性

采用两维方向上运动的光栅作为刺激并以电磁感应眼动测量方法对家兔ＯＫＮ方向特性进行研究。结果表明：水平单一方向运动的图形刺激时,只有鼻向刺激引起ＯＫＮ反应,且ＯＫＮ反应的慢相方向接近于刺激方向,说明水平刺激时,家兔ＯＫＮ反应方向与刺激方向基本一致;其它方向上运动图形刺激时,家兔ＯＫＮ反应方向并没有随刺激方向的改变作相应变化,而基本集中在三个方向：水平鼻向、垂直向上及垂直向下附近,表明家兔ＯＫＮ的反应方向随不同刺激方向呈非线性的变化特性。     

两种等亮度不同运动图形刺激下的交替OKN眼动

等亮度彩色运动条纹产生视动震颤（ＯＫＮ）眼动反应揭示了ＯＫＮ眼动控制系统中存在颜色通道;而在两个相反方向运动的等亮度彩色运动条纹图象同时显示刺激时能引起交替的两个方向的ＯＫＮ跟踪眼动。故表明了在ＯＫＮ眼动控制系统中各个颜色通道交替地控制产生ＯＫＮ眼动反应。     

分眼刺激时家兔的交替OKN眼动跟踪特性

本工作用不同运动图形分别同时刺激家兔左右眼,通过检测正常及单侧前庭迷路损伤后家兔的ＯＫＮ反应,证明在这种刺激情况下,正常家兔的眼动反应为交替的ＯＫＮ反应,为进一步探讨交替ＯＫＮ的控制机制及控制部位建立了动物模型。     

复合运动条纹刺激下的视动震颤（OKN）眼动反应

研究视动震颤眼动系统在同时包含两个二维运动的复合运动条纹刺激下的反应特性,并探讨两种子条纹运动方向的夹角和运动速度的影响。实验结果发现,在一定参数范围内,复合运动条纹引起了双重交替ＯＫＮ反应,即ＫＯＮ交替地跟踪合成运动和分别运动;在跟踪分别运动中,又是交替地跟踪两种子条纹的运动。     

单眼视觉剥夺猫外膝体神经元的双眼反应特性

采用在位（ｉｎ ｖｉｖｏ） 胞内记录技术,研究了单眼视觉剥夺猫外膝体（ＬＧＮ） 神经元的双眼反应特性（ｂｉｎｏｃｕｌａｒｉｔｙ） , 结果发现单眼剥夺猫外膝体几乎所有的双眼反应神经元都对非优势眼的闪烁光斑刺激有不同程度的反应,并且剥夺层和非剥夺层神经元在反应特性上没有明显差异。但是,与非剥夺层神经元相比,几乎没有剥夺层的神经元能对非优势眼的正弦移动光栅刺激起反应,并受其空间频率的调制。结果提示皮层下外膝体水平上这种双眼反应的某些精细反应性质可能与后天视觉经验的修饰有关,并可能受皮层反馈输入的影响。     

基于光敏蛋白的猫视皮层细胞双眼汇聚功能的模拟

已知光敏蛋白菌紫质ＬＢ膜具有类似于视觉系统感受野的对光微分响应。利用这个特性,本文组装了一对人工视皮层条型简单细胞感受野,并测定了其朝向选择特性及ＯＮ－区闪光融合频率响应特性。在此基础上,用这一对人工感受野组成了猫视皮层细胞双眼汇聚功能模拟系统,并模拟了猫视皮层细胞双眼汇聚功能。     

基于光敏蛋白的猫视皮层细胞双眼汇聚功能的模拟

已知光敏蛋白菌紫质ＬＢ膜具有类似于视觉系统感受野的对光微分响应。利用这个特性,本文组装了一对人工视皮层条型简单细胞感受野,并测定了其朝向选择特性及ＯＮ－区闪光融合频率响应特性。在此基础上,用这一对人工感受野组成了猫视皮层细胞双眼汇聚功能模拟系统,并模拟了猫视皮层细胞双眼汇聚功能。     

Stereopsis measured by random-dot patterns--a new clinical test.

Comparative measures are presented of stereo-acuity by random-dot stereograms using a phase difference haploscope and a Titmus stereogram. Using two groups of fifteen subjects each, one with full binocular vision and the other of small-angle strabismic amblyopes, greater discrimination between subject groups was found with the random-dot stereograms. It is concluded that random-dot stereograms produced by crossed Polaroid would be a more effective clinical means of determining stereo-acuity.     

Interocular interaction assessed by VEPs to pattern-onset, -reversal,and -offset in normally sighted and amblyopic subjects

The extent of interocular interaction reflected in sequentially averaged VEPs to checkerboard onset, reversal and offset stimulation was investigated to assess the relative efficacy of the three modes of pattern stimulation. Thirty-one controls and 18 amblyopic children were studied. Components on the side of the scalp ipsilateral and contralateral to the stimulated left half-field were measured for checksizes 12′, 20′, 50′ and 80′. Binocular:monocular amplitude ratios for normals were compared with `binocular:good eye' amplitude ratios for amblyopes. The reversal P100 ratio was found to differ significantly between normals and amblyopes for 12′, 20′ and 50′ checks. Ipsilateral (CII) and contralateral (P105) onset components also differed significantly but for the smallest 12′ checks only. In controls, onset components (P105 and CIII) and, reversal components (N80 and P100) showed significantly shorter binocular as compared with monocular latencies. These latency differences were not found in amblyopes. Our results show that interocular interaction in normals is best shown by potentials which predominantly reflect macular pathway activation, and are most conspicuous for reversal N80 and P100 components. Similarly, these components demonstrated the clearest differences when comparing binocular interaction effects between controls and amblyopic subjects.     

Impact of binocular vision impairments on reading skills in first-year schoolchildren with high visual acuity

The aim of this study was to investigate the state of binocular vision in first-year schoolchildren with high binocular visual acuity. The results have shown that only 5.1% of these children had normal binocular vision, whereas 25.7% of them had moderate impairments, and 67.9% had severe plus moderate impairments in binocular vision. Significant intergroup differences between schoolchildren with learning difficulties in reading and children with normal reading have been detected in the mean indicators for the distance of near-point of convergence (p < 0.001) and the visual behavior symptoms that confirmed binocular dysfunctions (p < 0.002).     

Neural mechanisms of recovery following early visual deprivation

Natural patterned early visual input is essential for the normal development of the central visual pathways and the visual capacities they sustain. Without visual input, the functional development of the visual system stalls not far from the state at birth, and if input is distorted or biased the visual system develops in an abnormal fashion resulting in specific visual deficits. Monocular deprivation, an extreme form of biased exposure, results in large anatomical and physiological changes in terms of territory innervated by the two eyes in primary visual cortex (V1) and to a loss of vision in the deprived eye reminiscent of that in human deprivation amblyopia. We review work that points to a special role for binocular visual input in the development of V1 and vision. Our unique approach has been to provide animals with mixed visual input each day, which consists of episodes of normal and biased (monocular) exposures. Short periods of concordant binocular input, if continuous, can offset much longer episodes of monocular deprivation to allow normal development of V1 and prevent amblyopia. Studies of animal models of patching therapy for amblyopia reveal that the benefits are both heightened and prolonged by daily episodes of binocular exposure.     

The effects of vision on the general locomotor behaviour of the goldfish, Carassius auratus

Comparison of the locomotor behaviour of normal, unilaterally and bilaterally blinded goldfish (Carassius auratus) demonstrated the roles of perspective vision (depth perception), which requires binocular vision, and of vision provided by only one eye, in the control of locomotion. Because normal and bilaterally blinded fish exhibited similar size and direction of angles of turn, a similar number of consecutive turns in the same direction and the same turning frequency, normal, binocular vision plays no role in the control of turning behaviour. Unilaterally blinded fish exhibited a strong bias in turning behaviour which resulted in their displaying circus movements toward the blinded side, a direction opposite to that reported by others for both invertebrates and vertebrates with unilateral sensory elimination. The mean step length was significantly increased by both uni- and bilateral blinding, and its temporal relationship with turning frequency and distance swum was also changed. Perspective vision (binocular) therefore controls these parameters. The significantly lower velocity of bilaterally blinded fish and the similarity between the other two test groups, indicated that sight by one eye only was sufficient to mediate velocity control.     

Area-specific amblyopic effects in human occipitotemporal object representations

The role of early visual experience in the establishment of human high-order visual areas is poorly understood. Here we investigated this issue using human amblyopia--a developmental visual disorder, which manifests a central vision (acuity) deficit. Previous fMRI studies of amblyopes have described abnormal functional activations in early retinotopic areas. Here we report the surprising finding of a selective object-related abnormality in high-order occipitotemporal cortex. Specifically, we found that face-related cortical areas show a severe disconnection from the amblyopic eye, while building-related regions remain essentially normal. The selectivity of the deficit highlights the differential computations performed in the different object-related areas and is compatible with the suggested association of face regions with analysis of fine detail.     

Environmental enrichment promotes plasticity and visual acuity recovery in adult monocular amblyopic rats

Loss of visual acuity caused by abnormal visual experience during development (amblyopia) is an untreatable pathology in adults. In some occasions, amblyopic patients loose vision in their better eye owing to accidents or illnesses. While this condition is relevant both for its clinical importance and because it represents a case in which binocular interactions in the visual cortex are suppressed, it has scarcely been studied in animal models. We investigated whether exposure to environmental enrichment (EE) is effective in triggering recovery of vision in adult amblyopic rats rendered monocular by optic nerve dissection in their normal eye. By employing both electrophysiological and behavioral assessments, we found a full recovery of visual acuity in enriched rats compared to controls reared in standard conditions. Moreover, we report that EE modulates the expression of GAD67 and BDNF. The non invasive nature of EE renders this paradigm promising for amblyopia therapy in adult monocular people.