Yokota J, Reisine H, Cohen B
Department of Neurology, Mount Sinai School of Medicine, New York, NY 10029.
Exp Brain Res. 1992;92(1):123-38. doi: 10.1007/BF00230389.
Electrical stimulation of the vestibular nuclei (VN) and prepositus hypoglossi nuclei (PPH) of alert cynomolgus monkeys evoked nystagmus and eye deviation while they were in darkness. At some sites in VN, nystagmus and after-nystagmus were induced with characteristics suggesting that velocity storage had been excited. We analyzed these responses and compared them to the slow component of optokinetic nystagmus (OKN) and to optokinetic after-nystagmus (OKAN). We then recorded unit activity in VN and determined which types of nystagmus would be evoked from the sites of recording. Nystagmus and eye deviations were also elicited by electrical stimulation of PPH, and we characterized the responses where unit activity was recorded in PPH. Horizontal slow phase velocity of the VN "storage" responses was contralateral to the side of stimulation. The rising time constants and peak steady-state velocities were similar to those of OKN, and the falling time constants of the after-nystagmus and of OKAN were approximately equal. Both the induced after-nystagmus and OKAN were habituated by stimulation of the VN. When horizontal after-nystagmus was evoked with animals on their sides, it developed yaw and pitch components that tended to shift the vector of the slow phase velocity toward the spatial vertical. Similar "cross-coupling" occurs for horizontal OKAN or for vestibular post-rotatory nystagmus elicited in tilted positions. Thus, the storage component of nystagmus induced by VN stimulation had the same characteristics as the slow component of OKN and the VOR. Positive stimulus sites for inducing nystagmus with typical storage components were located in rostral portions of VN. They lay in caudal ventral superior vestibular nucleus (SVN), dorsal portions of central medial vestibular nucleus (MVN) caudal to the abducens nuclei and in adjacent lateral vestibular nucleus (LVN). More complex stimulus responses, but with contralateral after-nystagmus, were induced from surrounding regions of ventral MVN and LVN, rostral descending vestibular nucleus and the marginal zone between MVN and PPH. Vestibular-only (VO), vestibular plus saccade (VPS) and tonic vestibular pause (TVP) units were identified by extracellular recording. Stimulation near type I lateral and vertical canal-related VO units elicited typical "storage" responses with after-nystagmus in 23 of 29 tracks (79%). Stimulus responses were more complex from the region of neurons with oculomotor-related signals, i.e., TVP or VPS cells, although after-nystagmus was also elicited from these sites. Effects of vestibular nerve and nucleus stimulation were compared.(ABSTRACT TRUNCATED AT 400 WORDS)
对清醒的食蟹猴的前庭核(VN)和舌下前置核(PPH)进行电刺激,在黑暗环境中诱发了眼球震颤和眼球偏斜。在VN的某些部位,诱发的眼球震颤和后继性眼球震颤具有表明速度存储被激活的特征。我们分析了这些反应,并将它们与视动性眼球震颤(OKN)的慢相成分以及视动性后继性眼球震颤(OKAN)进行比较。然后我们记录了VN中的单位活动,并确定从记录部位会诱发哪种类型的眼球震颤。电刺激PPH也能诱发眼球震颤和眼球偏斜,我们对在PPH中记录单位活动的反应进行了特征描述。VN“存储”反应的水平慢相速度与刺激侧对侧。其上升时间常数和峰值稳态速度与OKN相似,后继性眼球震颤和OKAN的下降时间常数大致相等。诱发的后继性眼球震颤和OKAN都可通过刺激VN而产生习惯化。当动物侧卧诱发水平后继性眼球震颤时,它会产生偏航和俯仰成分,这些成分倾向于将慢相速度向量移向空间垂直方向。在水平OKAN或在倾斜位置诱发的前庭旋转后眼球震颤中也会出现类似的“交叉耦合”。因此,VN刺激诱发的眼球震颤的存储成分与OKN的慢相成分和前庭眼反射(VOR)具有相同的特征。诱发具有典型存储成分的眼球震颤的正刺激部位位于VN的嘴侧部分。它们位于尾侧腹侧上前庭核(SVN)、展神经核尾侧的中央内侧前庭核(MVN)的背侧部分以及相邻的外侧前庭核(LVN)。从腹侧MVN和LVN的周围区域、嘴侧下行前庭核以及MVN和PPH之间的边缘区诱发的刺激反应更为复杂,但后继性眼球震颤为对侧性。通过细胞外记录识别出了仅前庭(VO)、前庭加扫视(VPS)和紧张性前庭暂停(TVP)单位。在2型外侧和垂直半规管相关的VO单位附近进行刺激,在29条记录轨迹中的23条(79%)诱发了带有后继性眼球震颤的典型“存储”反应。来自具有动眼神经相关信号的神经元区域,即TVP或VPS细胞区域的刺激反应更为复杂,尽管这些部位也能诱发后继性眼球震颤。比较了前庭神经和前庭核刺激的效果。(摘要截选至400字)
