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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。 相似文献
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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。 相似文献
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用亮度相等的不同颜色构成的等亮度彩色运动条纹(Isoluminant chromatic moving gratings)来进行OKN眼动跟踪实验,探讨它是否与由亮度差别构成的黑白运动条纹图象一样引起OKN反应。实验结果表明在等亮度彩色运动条纹图象(没有亮度差别只有颜色差别)刺激下,视动系统可产生与黑白运动条纹刺激下同样的OKN反应,并且与各单原色运动条纹刺激下的OKN反应也一致。说明0KN眼动跟踪中的运动检测存在颜色通道。本文并提出了一种基于颜色的运动检测模型。 相似文献
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经直接与间接通路的视动震颤(OKN)眼动反应 总被引:1,自引:0,他引:1
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 相似文献
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采用了同时对左右眼分别以不同的运动图象刺激的实验方法,来测量及分析其OKN眼动反应,探索在OKN反映中两眼之间的输入关系以及眼动控制机制。实验结果发现在两眼的刺激图象不一致时,眼动反应为交替的OKN反应,即中枢神经系统根据各眼的刺激速度,交替地控制产生OKN眼动反应。本文还从闭环控制上讨论了视网膜上速度误差信号的作用。 相似文献
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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。 相似文献
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Anuoluwapo Sopeyin Benjamin K. Young Martha A. Howard 《The Yale journal of biology and medicine》2021,94(1):107
Amblyopia is the most common cause of preventable visual impairment in children and occurs as a result of unilateral or bilateral impairment in best-corrected visual acuity. Early diagnosis and proper treatment are crucial to prevent poor visual outcomes in adulthood. Advances in technology have provided more objective diagnostic tools, which can now be used by a wide range of healthcare providers. Here, we highlight tools that have gained popularity in the past two decades and compare clinically relevant parameters to guide primary care providers seeking to incorporate instrumental vision screening in pediatric patient care. 相似文献
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Reinhold Necker 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》2007,193(12):1177-1183
Many birds show a rhythmic forward and backward movement of their heads when they walk on the ground. This so-called “head-bobbing” is characterized by a rapid forward movement (thrust phase) which is followed by a phase where the head keeps its position with regard to the environment but moves backward with regard to the body (hold phase). These head movements are synchronized with the leg movements. The functional interpretations of head-bobbing are reviewed. Furthermore, it is discussed why some birds do bob their head and others do not. 相似文献
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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。 相似文献
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用运动文字的阅读眼动实验来研究运动图像识别与眼动控制的关系,并与一般OKN眼动及一般正常阅读进行对比,探讨了速度及位置信息处理与内容信息处理的关系.实验结果表明;(1)一般正常文字阅读的眼动是Saccades眼动与注视停顿;运动文字识别阅读的眼动中没有注视停顿,而是快、慢交替的OKN眼动,在其慢相期间即运动文字与视网膜相对静止期间采集内容信息进行处理,慢相期间既处理文字内容信息又处理运动速度信息,说明对运动速度与内容信息的处理是并行的.(2)在运动文字运动速度高达80°/s以上时,已不能阅读甚至不能识别单字意义,但仍可产生OKN眼动;这一方面证实阅读速度的受限不在于眼球运动的跟踪能力,而在于高级识别中枢的解码速度,另一方面也说明OKN眼动不是在识别后才产生,而是进行运动图象识别的必要条件.(3)运动文字识别阅读的速度不低于一般正常文字阅读的速度.本文的结果还证实OKN眼动的快相眼动有别于Foveating Saccades. 相似文献
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Binocular rivalry is a fascinating perceptual phenomenon that has been characterized extensively at the psychophysical level. However, the underlying neural mechanism remains poorly understood. In particular, the role of the early visual pathway remains controversial. In this study, we used voltage-sensitive dye imaging to measure the spatiotemporal activity patterns in cat area 18 evoked by dichoptic orthogonal grating stimuli. We found that after several seconds of monocular stimulation with an oriented grating, an orthogonal stimulus to the other eye evoked a reversal of the cortical response pattern, which may contribute to flash suppression in perception. Furthermore, after several seconds of rival binocular stimulation with unequal contrasts, transient increase in the contrast of the weak stimulus evoked a long-lasting cortical response. This transient-triggered response could contribute to the perceptual switch during binocular rivalry. Together, these results point to a significant contribution of early visual cortex to transient-triggered switch in perceptual dominance. 相似文献
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The object of this study is to mathematically specify important characteristics of visual flow during translation of the eye for the perception of depth and self-motion. We address various strategies by which the central nervous system may estimate self-motion and depth from motion parallax, using equations for the visual velocity field generated by translation of the eye through space. Our results focus on information provided by the movement and deformation of three-dimensional objects and on local flow behavior around a fixated point. All of these issues are addressed mathematically in terms of definite equations for the optic flow. This formal characterization of the visual information presented to the observer is then considered in parallel with other sensory cues to self-motion in order to see how these contribute to the effective use of visual motion parallax, and how parallactic flow can, conversely, contribute to the sense of self-motion. This article will focus on a central case, for understanding of motion parallax in spacious real-world environments, of monocular visual cues observable during pure horizontal translation of the eye through a stationary environment. We suggest that the global optokinetic stimulus associated with visual motion parallax must converge in significant fashion with vestibular and proprioceptive pathways that carry signals related to self-motion. Suggestions of experiments to test some of the predictions of this study are made. 相似文献