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猴子视束核刺激诱发的眼球震颤

Nystagmus induced by stimulation of the nucleus of the optic tract in the monkey.

作者信息

Schiff D, Cohen B, Raphan T

机构信息

Department of Neurology, Mount Sinai School of Medicine, New York, NY.

出版信息

Exp Brain Res. 1988;70(1):1-14. doi: 10.1007/BF00271841.

DOI:10.1007/BF00271841
PMID:3261253
Abstract
  1. The nucleus of the optic tract (NOT) was electrically stimulated in alert rhesus monkeys. In darkness stimulation evoked horizontal nystagmus with ipsilateral slow phases, followed by after-nystagmus in the same direction. The rising time course of the slow phase velocity was similar to the slow rise in optokinetic nystagmus (OKN) and to the charge time of optokinetic after-nystagmus (OKAN). The maximum velocity of the steady state nystagmus was approximately the same as that of OKAN, and the falling time course of the after-nystagmus paralleled OKAN. 2. Increases in frequency and duration of stimulation caused the rising and falling time constants of the nystagmus and after-nystagmus to become shorter. Changes in the falling time constant of the after-nystagmus were similar to changes in the time constant of OKAN produced by increases in the velocity or duration of optokinetic stimulation. 3. Stimulus-induced nystagmus was combined with OKN, OKAN and per- and post-rotatory nystagmus. The slow component of OKN as well as OKAN could be prolonged or blocked by stimulation, leaving the rapid component of OKN unaffected. Activity induced by electrical stimulation could also sum with activity arising in the semicircular canals to reduce or abolish post-rotatory nystagmus. 4. Positive stimulus sites for inducing nystagmus were located in the posterolateral pretectum. This included portions of NOT that lie in and around the brachium of the superior colliculus and adjacent regions of the dorsal terminal nucleus (DTN). 5. The data indicate that NOT stimulation had elicited the component of OKN which is responsible for the slow rise in slow phase velocity and for OKAN. The functional implication is that NOT, and possibly DTN, are major sources of visual information related to retinal slip in the animal's yaw plane for semicircular canal-related neurons in the vestibular nuclei. Analyzed in terms of a model of OKN and OKAN (Cohen et al. 1977; Waespe et al. 1983), the indirect pathway, which excites the velocity storage mechanism in the vestibular system to produce the slow component of OKN and OKAN, lies in NOT in the monkey, as it probably also does in cat, rat and rabbit. Pathways carrying activity for the rapid rise in slow phase velocity during OKN or for ocular pursuit appear to lie outside NOT.
摘要
  1. 在清醒的恒河猴中对视束核(NOT)进行电刺激。在黑暗环境中,刺激诱发了具有同侧慢相的水平性眼球震颤,随后是同一方向的后继性眼球震颤。慢相速度的上升时间过程类似于视动性眼球震颤(OKN)的缓慢上升以及视动性后继性眼球震颤(OKAN)的充电时间。稳态眼球震颤的最大速度与OKAN的大致相同,并且后继性眼球震颤的下降时间过程与OKAN相似。2. 刺激频率和持续时间的增加导致眼球震颤和后继性眼球震颤的上升和下降时间常数变短。后继性眼球震颤下降时间常数的变化类似于视动刺激速度或持续时间增加所产生的OKAN时间常数的变化。3. 刺激诱发的眼球震颤与OKN、OKAN以及旋转前后的眼球震颤相结合。OKN以及OKAN的慢相成分可通过刺激延长或阻断,而OKN的快相成分不受影响。电刺激诱发的活动也可与半规管产生的活动相加,以减少或消除旋转后眼球震颤。4. 诱发眼球震颤的阳性刺激部位位于后外侧顶盖前区。这包括位于上丘臂及其周围以及背侧终核(DTN)相邻区域的NOT部分。5. 数据表明,NOT刺激诱发了OKN中负责慢相速度缓慢上升和OKAN的成分。其功能意义在于,NOT以及可能的DTN是与动物偏航平面视网膜滑动相关的视觉信息的主要来源,这些信息传递给前庭核中与半规管相关的神经元。根据OKN和OKAN的模型(Cohen等人,1977年;Waespe等人,1983年)分析,在猴子中,兴奋前庭系统速度存储机制以产生OKN和OKAN慢相成分的间接通路位于NOT,猫、大鼠和兔子可能也是如此。在OKN期间携带慢相速度快速上升活动或眼球追随活动的通路似乎位于NOT之外。

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本文引用的文献

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IEEE Trans Biomed Eng. 1963 Oct;10:137-45. doi: 10.1109/tbmel.1963.4322822.
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The efferent projections of the pretectal complex: an autoradiographic and horseradish peroxidase analysis.顶盖前复合体的传出投射:放射自显影和辣根过氧化物酶分析
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Effects of ablation of flocculus and paraflocculus of eye movements in primate.灵长类动物绒球及旁绒球切除对眼球运动的影响
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