Microsecond-Scale Timing Precision in Rodent Trigeminal Primary Afferents

机译：啮齿动物三叉神经初级传入微秒级定时精度

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摘要

Communication in the nervous system occurs by spikes: the timing precision with which spikes are fired is a fundamental limit on neural information processing. In sensory systems, spike-timing precision is constrained by first-order neurons. We found that spike-timing precision of trigeminal primary afferents in rats and mice is limited both by stimulus speed and by electrophysiological sampling rate. High-speed video of behaving mice revealed whisker velocities of at least 17,000°/s, so we delivered an ultrafast “ping” (>50,000°/s) to single whiskers and sampled primary afferent activity at 500 kHz. Median spike jitter was 17.4 μs; 29% of neurons had spike jitter < 10 μs. These results indicate that the input stage of the trigeminal pathway has extraordinary spike-timing precision and very high potential information capacity. This timing precision ranks among the highest in biology.

机译：神经系统中的通信是通过尖峰发生的：尖峰触发的定时精度是神经信息处理的基本限制。在感觉系统中，一阶神经元会限制尖峰定时的精度。我们发现在大鼠和小鼠中三叉神经原代传入刺激的定时精度受刺激速度和电生理采样率的限制。行为小鼠的高速视频显示晶须速度至少为17,000°/ s，因此我们对单个晶须进行了超快的“ ping”（> 50,000°/ s）测试，并以500 kHz采样了主要传入活动。中值峰值抖动为17.4μs； 29％的神经元的峰值抖动<10μs。这些结果表明，三叉戟途径的输入阶段具有非凡的尖峰定时精度和非常高的潜在信息容量。这种计时精度在生物学上名列前茅。

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期刊名称 The Journal of Neuroscience
作者
Michael R. Bale; Dario Campagner; Andrew Erskine; Rasmus S. Petersen;
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作者单位

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年(卷),期 2015(35),15
年度 2015
页码 5935–5940
总页数 6
原文格式 PDF
正文语种
中图分类神经科学;
关键词
neural coding trigeminal ganglion vibrissa whisker;

机译：神经编码;三叉神经节;触须;晶须;

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专利

1. Microsecond-Scale Timing Precision in Rodent Trigeminal Primary Afferents [J] . Bale Michael R., Campagner Dario, Erskine Andrew, The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2015,第15期

机译：啮齿动物三叉神经初级传入微秒级定时精度
2. Distribution of NADPH diaphorase-exhibiting primary afferent neurons in the trigeminal ganglion and mesencephalic trigeminal nucleus of the rabbit. [J] . Kolesar D, Kolesarova M, Schreiberova A, Cellular and Molecular Neurobiology . 2006,第7a8期

机译：兔三叉神经节和中脑三叉神经核中表达NADPH心肌黄递酶的初级传入神经元的分布。
3. Distribution of NADPH Diaphorase-Exhibiting Primary Afferent Neurons in the Trigeminal Ganglion and Mesencephalic Trigeminal Nucleus of the Rabbit [J] . Dalibor Kolesár, Mária Kolesárová, Andrea Schreiberová, Cellular and Molecular Neurobiology . 2006,第7a8期

机译：兔三叉神经节和中脑三叉神经核中表达NADPH心肌黄递酶的初级传入神经元的分布
4. Contribution of primary afferent input to trigeminal glial activation, cytokine induction and NMDA receptor phosphorylation [C] . Wang H., Guo W., Yang K., International Congress on Neuropathic Pain . 2010

机译：初级传入输入对三叉胶质激活，细胞因子诱导和NMDA受体磷酸化的贡献
5. The corneal wound response involves reciprocated action by nucleotides released from the epithelium and by glutamate from trigeminal afferent neurons. [D] . Oswald, Duane Joseph. 2010

机译：角膜伤口反应涉及从上皮释放的核苷酸和来自三叉神经传入神经元的谷氨酸的往复作用。
6. Whisker Vibrations and the Activity of Trigeminal Primary Afferents in Response to Airflow [O] . Yan S.W. Yu, Nicholas E. Bush, Mitra J.Z. Hartmann 2019

机译：晶须振动和响应气流的三叉基原发性活动
7. Microsecond-scale Timing Precision in Rodent Trigeminal Primary Afferents [O] . Bale, Michael R, Campagner, Dario, Erskine, Andrew, 2015

机译：啮齿动物三叉神经传入神经元的微秒级定时精度

Microsecond-Scale Timing Precision in Rodent Trigeminal Primary Afferents

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