丙泊酚镇静下听觉事件相关电位响应与镇静深度间的相关性

doi:10.3969/j.issn.1006-7795.2025.05.007

首都医科大学学报 ›› 2025, Vol. 46 ›› Issue (5): 805-811.doi: 10.3969/j.issn.1006-7795.2025.05.007

丙泊酚镇静下听觉事件相关电位响应与镇静深度间的相关性

王昕馨,梁艺,陈奕玮,马博,刘海洋,韩如泉,菅敏钰^*

首都医科大学附属北京天坛医院麻醉科,北京 100070

收稿日期:2025-07-03 修回日期:2025-08-13 出版日期:2025-10-21 发布日期:2025-10-22
通讯作者: 菅敏钰 E-mail:yum1988@163.com
基金资助:
国家自然科学基金项目（82271284）,首都医学科学创新中心项目(CX24PY18)。

Correlation between auditory event-related potential and sedation depth during propofol sedation

Wang Xinxin, Liang Yi, Chen Yiwei, Ma Bo,Liu Haiyang, Han Ruquan,Jian Minyu^*

Department of Anesthesiology, Beijing Tiantan Hospital，Capital Medical University, Beijing 100070，China

Received:2025-07-03 Revised:2025-08-13 Online:2025-10-21 Published:2025-10-22
Supported by:
This study was supported by National Natural Science Foundation of China（82271284）, Chinese Institutes for Medical Research, Beijing(CX24PY18).

摘要/Abstract

摘要： 目的探索在丙泊酚诱导的镇静深度梯度变化过程中听觉事件相关电位（auditory event-related potentials，AERP）神经响应特征，并探讨其与镇静深度及行为反应间的相关性，进一步探索AERP成分作为反映镇静深度潜在神经生理学指标的可行性。方法采用基于Oddball范式的听觉任务探索健康受试者在丙泊酚镇静深度梯度变化下AERP的响应特征，并采用线性混合模型探索AERP成分［失匹配负波（mismatch negativity, MMN及P300］平均波幅与丙泊酚镇静下意识状态［改良观察者警觉/镇静量表(Modified Observer's Assessment of Alertness/sedation Scale，MOAA/S)评分］以及行为表现（反应正确率）之间的相关性。结果最终纳入22例健康受试者，在丙泊酚镇静深度梯度变化过程中新异（novelty，Nov）及偏差刺激（deviation，Dev）诱发的MMN成分的平均波幅与MOAA/S评分存在显著的负相关性［MMN -Dev:β=-0.62(-2.70~-0.07)，P=0.04; MMN-Nov：β=-0.15(-0.27~-0.03)，P=0.02］，且新异刺激诱发的MMN成分与受试者反应正确率之间也存在显著相关性［MMN-Nov：β=-5.08(-7.78~-2.37)，P<0.01］。新异刺激诱发的P300成分其平均波幅的变化与MOAA/S评分间存在正相关性［P300-Nov：β=0.16(0.04~0.39)，P=0.04］，但在校正年龄、教育水平以及认知水平等混杂因素后其相关性不显著。结论在丙泊酚镇静深度梯度变化过程中，听觉任务诱发的MMN成分平均波幅与意识状态及行为反应准确性相关。MMN有望成为量化镇静下意识状态或行为反应能力的潜在神经生理学指标。

关键词: 全身麻醉, 丙泊酚, 听觉事件相关电位, 失匹配负波, P300, 镇静深度

Abstract: Objective To explore the neurophysiological signatures of auditory event-related potentials (AERP) during propofol-induced graded sedation depths, and their correlations with sedation levels and behavioral responsiveness, and further to evaluate the feasibility of AERP components as potential biomarkers for quantifying consciousness states. Methods An auditory Oddball paradigm was used to evoke AERP responses in healthy volunteers under propofol-induced graded sedation. Linear mixed model was applied to explore the relationships between the mean amplitudes of AERP components ［mismatch negativity(MMN); P300］and both sedation-induced conscious states ［Modified Observer's Assessment of Alertness/sedation Scale(MOAA/S) scores］ and behavioral performance (response accuracy). Results Twenty-two healthy volunteers were included. Data analysis revealed significant negative correlations between the mean amplitudes of MMN components ［MMN -Dev:β=-0.62(-2.70--0.07)，P=0.04; MMN-Nov：β=-0.15(-0.27--0.03)，P=0.02］ and MOAA/S scores during propofol sedation. Novel stimulus-evoked MMN amplitudes also correlated with response accuracy ［MMN-Nov：β=-5.08(-7.78--2.37)，P<0.01］. There was a weak positive correlation between novel stimulus-evoked P300 amplitudes and MOAA/S scores ［β=0.16(0.04-0.39), P=0.04］, however, the correlation was no significant difference after adjusting for confounding factors including age, education level, and cognitive level. Conclusion The mean amplitude of MMN component elicited during auditory tasks was correlated with conscious states and behavioral accuracy under propofol-induced graded sedation. MMN holds promise as a potential neurophysiological indicator for quantifying conscious states or behavioral responsiveness during sedation.

Key words: general anesthesia, propofol, auditory event-related potential, mismatch negativity, P300, sedation depths

中图分类号:

R614
R651

王昕馨, 梁艺, 陈奕玮, 马博, 刘海洋, 韩如泉, 菅敏钰. 丙泊酚镇静下听觉事件相关电位响应与镇静深度间的相关性[J]. 首都医科大学学报, 2025, 46(5): 805-811.

Wang Xinxin, Liang Yi, Chen Yiwei, Ma Bo, Liu Haiyang, Han Ruquan, Jian Minyu. Correlation between auditory event-related potential and sedation depth during propofol sedation[J]. Journal of Capital Medical University, 2025, 46(5): 805-811.

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丙泊酚镇静下听觉事件相关电位响应与镇静深度间的相关性

Correlation between auditory event-related potential and sedation depth during propofol sedation

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