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清醒猫中投射至绒球的脑干神经元的放电特性。I. 内侧前庭核

Discharge properties of brain stem neurons projecting to the flocculus in the alert cat. I. Medical vestibular nucleus.

作者信息

Cheron G, Escudero M, Godaux E

机构信息

Laboratory of Neurosciences, University of Mons-Hainaut, Belgium.

出版信息

J Neurophysiol. 1996 Sep;76(3):1759-74. doi: 10.1152/jn.1996.76.3.1759.

DOI:10.1152/jn.1996.76.3.1759
PMID:8890290
Abstract
  1. The aim of this study was to characterize the signals transmitted by neurons of the medial vestibular nucleus (MVN) to the middle zone of the flocculus in alert cats. 2. Bipolar stimulating electrodes were implanted into the middle zone of each flocculus, because this zone is known to be involved in the control of horizontal eye movements. Correct implantation of the stimulating electrodes was ensured by 1) recording of Purkinje cells whose activity was related to horizontal eye movements and 2) elicitation of slow abduction of the ipsilateral eye upon electrical stimulation. 3. The rostral two-thirds of the MVN were investigated by microelectrodes during stimulation of both flocculi. Antidromically activated neurons were found only in the central part of the explored area. Forty-four units were activated from the contralateral, eight from the ipsilateral flocculus. Neurons could never be activated from both flocculi. 4. Neurons included in this study were MVN neurons that had 1) to be antidromically activated from one flocculus and 2) to modulate their firing rate during the horizontal vestibuloocular reflex (VOR) elicited by sinusoidal stimulation (0.1 Hz; 10, 20, 30 or 40 degrees). The 39 neurons matching both criteria were classified in 2 groups: 22 neurons changed their firing rate during spontaneous horizontal eye movements (EM-neurons), 17 modulated their activity only during head rotation and were labeled vestibular-only neurons (VO-neurons). 5. Sufficient data were obtained from 13 EM-neurons to allow a quantitative analysis. Among those, 12 were activated from the contralateral and 1 from the ipsilateral flocculus. Their sensitivity to horizontal eye position during intersaccadic fixation was 3.54 +/- 2.75 (SD) spikes.s-1/deg. Eight EM-neurons behaved as type I neurons, five as type II neurons. During the slow phases of the VOR, all of these neurons combined some head-velocity sensitivity (1.50 +/- 0.43 spikes.s-1/deg.s-1) with some horizontal eye-position sensitivity (3.61 +/- 2.45 spikes.s-1/deg). Additionally, seven of these neurons presented a sensitivity to eye velocity (1.34 +/- 0.55 spikes.s-1/deg.s-1). The phase difference between the modulation of firing rate and eye position varied substantially between neurons. The observed phase lead with respect to eye position ranged from 2 to 110 degrees (41.9 +/- 31.8 degrees). 6. Sufficient data were obtained from 10 VO-neurons to allow a quantitative analysis. Among those, nine were activated from the contralateral and one from the ipsilateral flocculus. All of these neurons behaved as type I neurons. The sensitivity to head velocity was 1.64 +/- 1.07 spikes.s-1/deg.s-1. The phase lead of the modulation of spike activity with respect to head velocity ranged from 4.5 to 30.5 degrees (16.4 +/- 8.9 degrees). 7. We conclude that the MVN provides the horizontal zone of the flocculus (with a strong contralateral preference) with information about head velocity (through VO-neurons and EM-neurons) and about eye velocity and position (through EM-neurons).
摘要
  1. 本研究的目的是在清醒猫中,描绘内侧前庭核(MVN)神经元向绒球中间带传递的信号特征。2. 将双极刺激电极植入每个绒球的中间带,因为已知该区域参与水平眼动的控制。通过以下方式确保刺激电极的正确植入:1)记录其活动与水平眼动相关的浦肯野细胞;2)电刺激时诱发同侧眼的缓慢外展。3. 在刺激双侧绒球期间,用微电极研究了MVN的前三分之二区域。仅在探索区域的中央部分发现了逆向激活的神经元。44个单位从对侧绒球激活,8个从同侧绒球激活。神经元绝不可能从双侧绒球激活。4. 本研究纳入的神经元为MVN神经元,其必须满足:1)能从一个绒球逆向激活;2)在正弦刺激(0.1Hz;10、20、30或40度)诱发的水平前庭眼反射(VOR)期间调节其放电频率。符合这两个标准的39个神经元分为两组:22个神经元在自发水平眼动期间改变其放电频率(眼动神经元,EM - neurons),17个仅在头部旋转期间调节其活动,被标记为仅前庭神经元(VO - neurons)。5. 从13个眼动神经元获得了足够的数据以进行定量分析。其中,12个从对侧绒球激活,1个从同侧绒球激活。它们在扫视间注视期间对水平眼位的敏感性为3.54±2.75(标准差)个峰电位·秒⁻¹/度。8个眼动神经元表现为I型神经元,5个表现为II型神经元。在VOR的慢相期间,所有这些神经元将一些头部速度敏感性(1.50±0.43个峰电位·秒⁻¹/度·秒⁻¹)与一些水平眼位敏感性(3.61±2.45个峰电位·秒⁻¹/度)结合起来。此外,这些神经元中有7个表现出对眼速度的敏感性(1.34±0.55个峰电位·秒⁻¹/度·秒⁻¹)。放电频率调制与眼位之间的相位差在神经元之间有很大差异。观察到的相对于眼位的相位超前范围为2至110度(41.9±31.8度)。6. 从10个仅前庭神经元获得了足够的数据以进行定量分析。其中,9个从对侧绒球激活,1个从同侧绒球激活。所有这些神经元都表现为I型神经元。对头部速度的敏感性为1.64±1.07个峰电位·秒⁻¹/度·秒⁻¹。峰电位活动调制相对于头部速度的相位超前范围为4.5至30.5度(16.4±8.9度)。7. 我们得出结论,MVN通过VO - 神经元和EM - 神经元为绒球水平带(有强烈的对侧偏好)提供有关头部速度的信息,以及通过EM - 神经元提供有关眼速度和眼位的信息。

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