皮层图谱可塑性作为迷走神经刺激频率的函数。

Cortical map plasticity as a function of vagus nerve stimulation rate.

机构信息

Texas Biomedical Device Center, Richardson, TX, 75080, USA; The University of Texas at Dallas, School of Behavioral Brain Sciences, 800 West Campbell Road, GR 41, Richardson, TX, 75080-3021, USA.

出版信息

Brain Stimul. 2018 Nov-Dec;11(6):1218-1224. doi: 10.1016/j.brs.2018.07.045. Epub 2018 Jul 18.

DOI:10.1016/j.brs.2018.07.045

PMID:30037658

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6487479/

Abstract

BACKGROUND

Repeatedly pairing a brief train of vagus nerve stimulation (VNS) with an external event can reorganize the sensory or motor cortex. A 30 Hz train of sixteen VNS pulses paired with a tone significantly increases the number of neurons in primary auditory cortex (A1) that respond to tones near the paired tone frequency. The effective range of VNS pulse rates for driving cortical map plasticity has not been defined.

OBJECTIVE/HYPOTHESIS: This project investigated the effects of VNS rate on cortical plasticity. We expected that VNS pulse rate would affect the degree of plasticity caused by VNS-tone pairing.

METHODS

Rats received sixteen pulses of VNS delivered at a low (7.5 Hz), moderate (30 Hz), or high (120 Hz) rate paired with 9 kHz tones 300 times per day over a 20 day period.

RESULTS

More A1 neurons responded to the paired tone frequency in rats from the moderate rate VNS group compared to naïve controls. The response strength was also increased in these rats. In contrast, rats that received high or low rate VNS failed to exhibit a significant increase in the number of neurons tuned to sounds near 9 kHz.

CONCLUSION

Our results demonstrate that the degree of cortical plasticity caused by VNS-tone pairing is an inverted-U function of VNS pulse rate. The apparent high temporal precision of VNS-tone pairing helps identify optimal VNS parameters to achieve the beneficial effects from restoration of sensory or motor function.

摘要

背景

反复将短暂的迷走神经刺激 (VNS) 与外部事件配对，可以重组感觉或运动皮层。与音调配对的 30Hz 十六脉冲 VNS 序列可显著增加初级听觉皮层 (A1) 中对配对音调频率附近音调有反应的神经元数量。尚未确定用于驱动皮质图可塑性的 VNS 脉冲率的有效范围。

目的/假设：本项目研究了 VNS 率对皮质可塑性的影响。我们预计 VNS 脉冲率会影响 VNS-音调配对引起的可塑性程度。

方法

大鼠每天接受 16 次 VNS 脉冲（低速率 7.5Hz、中速率 30Hz 或高速率 120Hz），并与 9kHz 音调配对，共 20 天，每天 300 次。

结果

与未经训练的对照组相比，中速率 VNS 组的大鼠 A1 中有更多的神经元对配对音调频率有反应，并且这些神经元的反应强度也增加了。相比之下，接受高或低速率 VNS 的大鼠未能表现出对接近 9kHz 的声音的神经元数量明显增加。

结论

我们的结果表明，VNS-音调配对引起的皮质可塑性程度是 VNS 脉冲率的倒 U 函数。VNS-音调配对的明显高时间精度有助于确定最佳的 VNS 参数，以实现从感觉或运动功能恢复中获得的有益效果。

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