Waespe W, Cohen B, Raphan T
Exp Brain Res. 1983;50(1):9-33. doi: 10.1007/BF00238229.
Optokinetic nystagmus (OKN), optokinetic after-nystagmus (OKAN), vestibular nystagmus and visual-vestibular interactions were studied in monkeys after surgical ablation of the flocculus and paraflocculus. After bilateral flocculectomy the initial rapid rise in slow phase eye velocity of horizontal and vertical OKN was severely attenuated, and maximum velocities fell to the preoperative saturation level of OKAN. There is generally little or no upward OKAN in the normal monkey, and upward OKN was lost after bilateral lesions. Unilateral flocculectomy affected the rapid rise in horizontal velocity to both sides. Consistent with the absence of a rapid response to steps of surround velocity, animals were unable to follow acceleration of the visual field with eye accelerations faster than about 3-5 degrees/s2. The slow rise in OKN slow phase velocity to a steady state level was prolonged after operation. However, rates of rise were approximately equal for the same initial retinal slips before and after operation. The similarity in the time course of OKN when adjusted for initial retinal slip, and in the gain, saturation level and time course of OKAN before and after flocculectomy indicates that the lesions had not significantly altered the coupling of the visual system to the velocity storage integrator or its associated time constant. When animals were rotated in a subject-stationary visual surround after flocculectomy, they could not suppress the initial jump in eye velocity at the onset of the step. Despite this, they could readily suppress the subsequent nystagmus. The time constant of decline in the conflict situations was almost as short as in the normal monkey and was in the range of the peripheral vestibular time constant. This suggests that although the animals were unable to suppress rapid changes in eye velocity due to activation of direct vestibulo-oculomotor pathways, they had retained their ability to discharge activity from the velocity storage mechanism. Consistent with this, animals had no difficulty in suppressing OKAN after flocculectomy. Visual-vestibular interactions utilizing the velocity storage mechanism were normal after flocculectomy, as was nystagmus induced by rotation about a vertical axis or about axes tilted from the vertical. Also unaffected were the discharge of nystagmus caused by tilting the head out of the plane of the response and visual suppression of nystagmus induced by off-vertical axis rotation. The flocculus does not appear to play an important role in mediating these responses. The data before and after flocculectomy were simulated by a model which is homeomorphic to that presented previously.(ABSTRACT TRUNCATED AT 400 WORDS)
在对猴子进行绒球和旁绒球手术切除后,研究了视动性眼震(OKN)、视动性后眼震(OKAN)、前庭眼震以及视觉 - 前庭相互作用。双侧绒球切除术后,水平和垂直 OKN 慢相眼速最初的快速上升严重减弱,最大速度降至术前 OKAN 的饱和水平。正常猴子通常很少或没有向上的 OKAN,双侧损伤后向上的 OKN 消失。单侧绒球切除影响向两侧的水平速度快速上升。与对周边速度阶跃缺乏快速反应一致,动物无法以快于约 3 - 5 度/秒²的眼加速度跟随视野的加速。术后 OKN 慢相速度上升至稳态水平的缓慢过程延长。然而,手术前后相同初始视网膜滑移时的上升速率大致相等。在根据初始视网膜滑移进行调整后,OKN 的时间进程以及绒球切除前后 OKAN 的增益、饱和水平和时间进程的相似性表明,损伤并未显著改变视觉系统与速度存储积分器及其相关时间常数的耦合。绒球切除后,当动物在固定于主体的视觉环境中旋转时,它们无法抑制步阶开始时眼速的初始跳跃。尽管如此,它们能够轻易抑制随后的眼震。冲突情况下眼震衰减的时间常数几乎与正常猴子一样短,且处于外周前庭时间常数范围内。这表明,尽管动物由于直接前庭 - 动眼神经通路的激活而无法抑制眼速的快速变化,但它们保留了从速度存储机制释放活动的能力。与此一致,绒球切除后动物抑制 OKAN 没有困难。绒球切除后,利用速度存储机制的视觉 - 前庭相互作用正常,绕垂直轴或偏离垂直轴旋转诱导的眼震也正常。头部偏离反应平面引起的眼震放电以及偏离垂直轴旋转诱导的眼震的视觉抑制也未受影响。绒球似乎在介导这些反应中不发挥重要作用。通过一个与先前提出的模型同胚的模型模拟了绒球切除前后的数据。(摘要截断于 400 字)
