在非常短的刺激间隔下呈现感觉刺激所引发的N1波增强是跨感觉系统的一个普遍特征。

The enhancement of the N1 wave elicited by sensory stimuli presented at very short inter-stimulus intervals is a general feature across sensory systems.

作者信息

Wang An Li, Mouraux André, Liang Meng, Iannetti Gian Domenico

机构信息

Department of Physiology, Anatomy and Genetics, University of Oxford, Oxford, United Kingdom.

出版信息

PLoS One. 2008;3(12):e3929. doi: 10.1371/journal.pone.0003929. Epub 2008 Dec 12.

DOI:10.1371/journal.pone.0003929

PMID:19081790

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2597742/

Abstract

BACKGROUND

A paradoxical enhancement of the magnitude of the N1 wave of the auditory event-related potential (ERP) has been described when auditory stimuli are presented at very short (< 400 ms) inter-stimulus intervals (ISI). Here, we examined whether this enhancement is specific for the auditory system, or whether it also affects ERPs elicited by stimuli belonging to other sensory modalities.

METHODOLOGY AND PRINCIPAL FINDINGS

We recorded ERPs elicited by auditory and somatosensory stimuli in 13 healthy subjects. For each sensory modality, 4800 stimuli were presented. Auditory stimuli consisted in brief tones presented binaurally, and somatosensory stimuli consisted in constant-current electrical pulses applied to the right median nerve. Stimuli were delivered continuously, and the ISI was varied randomly between 100 and 1000 ms. We found that the ISI had a similar effect on both auditory and somatosensory ERPs. In both sensory modalities, ISI had an opposite effect on the magnitude of the N1 and P2 waves: the magnitude of the auditory and the somatosensory N1 was significantly increased at ISI < or = 200 ms, while the magnitude of the auditory and the somatosensory P2 was significantly decreased at ISI < or = 200 ms.

CONCLUSION AND SIGNIFICANCE

The observation that both the auditory and the somatosensory N1 are enhanced at short ISIs indicates that this phenomenon reflects a physiological property that is common across sensory systems, rather than, as previously suggested, unique for the auditory system. Two of the hypotheses most frequently put forward to explain this observation, namely (i) the decreased contribution of inhibitory postsynaptic potentials to the recorded scalp ERPs and (ii) the decreased contribution of 'latent inhibition', are discussed. Because neither of these two hypotheses can satisfactorily account for the concomitant reduction of the auditory and the somatosensory P2, we propose a third, novel hypothesis, consisting in the modulation of a single neural component contributing to both the N1 and the P2 waves.

摘要

背景

当听觉刺激以非常短（<400毫秒）的刺激间隔（ISI）呈现时，听觉事件相关电位（ERP）的N1波幅度会出现矛盾性增强。在此，我们研究了这种增强是否特定于听觉系统，或者它是否也会影响由其他感觉模态的刺激所诱发的ERP。

方法和主要发现

我们记录了13名健康受试者由听觉和体感刺激诱发的ERP。对于每种感觉模态，呈现了4800次刺激。听觉刺激包括双耳呈现的短音，体感刺激包括施加于右正中神经的恒流电脉冲。刺激持续给予，ISI在100至1000毫秒之间随机变化。我们发现ISI对听觉和体感ERP有相似的影响。在两种感觉模态中，ISI对N1波和P2波的幅度有相反的影响：在ISI≤200毫秒时，听觉和体感N1的幅度显著增加，而在ISI≤200毫秒时，听觉和体感P2的幅度显著降低。

结论和意义

在短ISI时听觉和体感N1均增强的观察结果表明，这种现象反映了一种跨感觉系统共有的生理特性，而非如先前所认为的仅为听觉系统所特有。讨论了最常被提出用于解释这一观察结果的两个假设，即（i）抑制性突触后电位对记录的头皮ERP的贡献减少，以及（ii）“潜伏抑制”的贡献减少。由于这两个假设都不能令人满意地解释听觉和体感P2的同时降低，我们提出了第三个新假设，即由一个对N1波和P2波都有贡献的单一神经成分的调制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7502/2597742/f35f10125949/pone.0003929.g001.jpg

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在非常短的刺激间隔下呈现感觉刺激所引发的N1波增强是跨感觉系统的一个普遍特征。

The enhancement of the N1 wave elicited by sensory stimuli presented at very short inter-stimulus intervals is a general feature across sensory systems.

作者信息

机构信息

出版信息

BACKGROUND

METHODOLOGY AND PRINCIPAL FINDINGS

CONCLUSION AND SIGNIFICANCE

背景

方法和主要发现

结论和意义

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