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前腹侧耳蜗核中神经同步性的增强。II. 调谐曲线尾部的反应。

Enhancement of neural synchronization in the anteroventral cochlear nucleus. II. Responses in the tuning curve tail.

作者信息

Joris P X, Smith P H, Yin T C

机构信息

Department of Neurophysiology, University of Wisconsin Medical School, Madison 53706.

出版信息

J Neurophysiol. 1994 Mar;71(3):1037-51. doi: 10.1152/jn.1994.71.3.1037.

DOI:10.1152/jn.1994.71.3.1037
PMID:8201400
Abstract
  1. Discharges of neurons in the peripheral auditory system contain information about the temporal features of acoustic stimuli. Phase-locking of neurons in the anteroventral cochlear nucleus (AVCN) is usually reported to be less robust than in auditory nerve (AN) fibers, which provide their major input. In a companion paper we reported that some cells in AVCN of the cat show enhanced phase-locking compared with the AN when stimulated at the frequency to which they are most sensitive [characteristic frequency (CF)]. We called neurons "high-sync" when they showed vector strengths (R, a measure of phase-locking) > or = 0.9. Here we report phase-locking properties to stimuli at frequencies below CF. 2. Horseradish peroxidase-filled glass micropipettes or metal microelectrodes were inserted into the trapezoid body (TB), which is the large output tract of the AVCN. Acoustically driven fibers were classified on the basis of the shape of the poststimulus time (PST) histograms to short tone bursts at CF. We then presented low-frequency tones of increasing SPL and determined the maximum R value at 500 Hz (R500) for each fiber. Using the same experimental protocol we studied phase-locking in the ANs of two animals because maximal R values at the tuning curve tail have not been reported for AN fibers. 3. Although phase-locking in AN fibers is usually assumed to be independent of CF, we found that fibers with CF > 2 kHz tended to have higher R500 values than fibers with CF < or = 2 kHz. Moreover, R500 was > or = 0.9 in 20% (42 of 196) of the fibers studied and could be as high as 0.95. This population of fibers was defined as having "high-sync tails" and consisted almost entirely of fibers with low or medium spontaneous rate. 4. High-CF TB fibers stimulated at 500 Hz showed very high phase-locking. High-sync tails (R500 > or = 0.9) were found in 41 of 70 TB fibers. For a subset of these fibers (1/3 in total: 23 of 70) phase-locking was higher than is ever observed in the AN (R500 > or = 0.95); these fibers were defined as showing synchronization "enhancement." Virtually all fibers showing synchronization enhancement had primary-like-with-notch (PLN) PST histograms. Chopper and primary-like fibers showed high-sync tails for CFs > 3 kHz. 5. Synchronization filter functions were obtained for high-CF AN fibers by determining maximum synchronization for a range of stimuli below CF.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 外周听觉系统中神经元的放电包含有关声刺激时间特征的信息。通常认为,前腹侧耳蜗核(AVCN)中神经元的锁相不如提供主要输入的听神经(AN)纤维那样稳定。在一篇相关论文中,我们报道,当以猫AVCN中某些细胞最敏感的频率[特征频率(CF)]进行刺激时,与听神经相比,这些细胞表现出更强的锁相。当神经元的矢量强度(R,一种锁相的度量)≥0.9时,我们称其为“高同步”神经元。在此,我们报道了这些神经元对低于CF频率刺激的锁相特性。2. 将填充辣根过氧化物酶的玻璃微电极或金属微电极插入AVCN的主要输出通路——梯形体(TB)。根据对CF处短音爆刺激后时间(PST)直方图的形状,对听觉驱动纤维进行分类。然后我们呈现声压级不断增加的低频音调,并确定每根纤维在500 Hz时的最大R值(R500)。使用相同的实验方案我们研究了两只动物听神经中的锁相情况,因为尚未有关于听神经纤维调谐曲线尾部最大R值的报道。3. 尽管通常认为听神经纤维中的锁相与CF无关,但我们发现CF>2 kHz的纤维往往比CF≤2 kHz的纤维具有更高的R500值。此外,在所研究的纤维中,20%(196根中的42根)的R500≥0.9,且可能高达0.95。这群纤维被定义为具有“高同步尾部”,并且几乎完全由自发率低或中等的纤维组成。4. 在500 Hz刺激下,高CF的TB纤维表现出非常高的锁相。在70根TB纤维中有41根发现了高同步尾部(R500≥0.9)。对于这些纤维中的一个子集(总共1/3:70根中的23根),其锁相比在听神经中观察到的任何情况都要高(R500≥0.95);这些纤维被定义为表现出同步“增强”。几乎所有表现出同步增强的纤维都具有初级样带凹口(PLN)的PST直方图。对于CF>3 kHz的斩波器纤维和初级样纤维,也显示出高同步尾部。5. 通过确定低于CF的一系列刺激的最大同步性,获得了高CF听神经纤维的同步滤波器功能。(摘要截选至400字)

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