评估伤害性反应指数和频谱熵指数作为麻醉患者伤害感受监测指标的相关性。
Evaluation and correlation of nociceptive response index and spectral entropy indices as monitors of nociception in anesthetized patients.
作者信息
Ajayan Neeraja, Hrishi Ajay Prasad, Mathew Oommen, Saravanan Gourinandan
机构信息
Department of Neuroanesthesia and Critical Care, National Institute for Neurology and Neurosurgery, University College of London NHS Hospital Trust, London, United Kingdom.
Department of Neuroanesthesia and Critical Care, Sree Chitra Tirunal Institute for Medical Sciences and Technology, Thiruvananthapuram, Kerala, India.
出版信息
J Neurosci Rural Pract. 2023 Jul-Sep;14(3):440-446. doi: 10.25259/JNRP_75_2023. Epub 2023 May 20.
OBJECTIVES
During anesthesia, the response to these stimuli depends on the balance between nociception and antinociception. Recently, various monitoring systems based on the variables derived from electroencephalography, plethysmography, autonomic tone, reflex pathways, and composite algorithms have been introduced for monitoring nociception. The main aim of our study was to evaluate and correlate the physiological variables which reflect the autonomic nervous system response to nociception, such as heart rate (HR), systolic blood pressure (SBP), perfusion index (PI), and nociceptive response index (NRI), with the spectral entropy indices response entropy (RE) and RE-state entropy (SE), which reflects electromyographic (EMG) activation as a response to pain.
MATERIALS AND METHODS
This is a retrospective analysis of the data from a prospective study on the hypnotic and analgesic effects and the recovery profile of sevoflurane-based general anesthesia. Eighty-six patients undergoing single-agent sevoflurane anesthesia were recruited in the study. The study parameters, HR, SBP, SE, RE, RE-SE, PI, and NRI, were recorded at predefined time points before and after a standardized noxious stimulus. Correlation between the variables was carried out by applying the Pearson correlation equation for normal and the Spearman correlation equation for non-normally distributed data. Receiver operating characteristic (ROC) graphs were plotted, and the area under the curve was calculated to assess the diagnostic accuracy of post-stimulus NRI in detecting pain which was defined as RE-SE >10.
RESULTS
There was a significant increase in the SBP, HR, NRI, RE, SE, and RE-SE and a considerable decrease in PI values during the post-noxious period compared to the pre-noxious period. There was no correlation between the absolute values of NRI and entropy indices at T2. However, among the reaction values, there was a weak correlation between the reaction values of NRI and RE (r = 0.30; = 0.05). The area under the ROC curve for NRI to detect pain as defined by RE-SE >10 was 0.56.
CONCLUSION
During sevoflurane anesthesia, the application of noxious stimulus causes significant changes in variables reflecting sympathetic response and EMG activity. However, NRI failed to detect nociception, and there was only a weak correlation between the reaction values of NRI and RE-SE.
目的
在麻醉期间,对这些刺激的反应取决于伤害感受和抗伤害感受之间的平衡。最近,基于脑电图、体积描记法、自主神经张力、反射通路和复合算法得出的变量的各种监测系统已被引入用于监测伤害感受。我们研究的主要目的是评估反映自主神经系统对伤害感受反应的生理变量,如心率(HR)、收缩压(SBP)、灌注指数(PI)和伤害性反应指数(NRI),并将其与反映作为对疼痛反应的肌电图(EMG)激活的频谱熵指数反应熵(RE)和RE状态熵(SE)进行关联。
材料与方法
这是一项对一项关于七氟醚全身麻醉的催眠和镇痛效果及恢复情况的前瞻性研究数据的回顾性分析。86例接受单剂七氟醚麻醉的患者被纳入该研究。在标准化伤害性刺激前后的预定时间点记录研究参数HR、SBP、SE、RE、RE-SE、PI和NRI。通过应用针对正态分布数据的Pearson相关方程和针对非正态分布数据的Spearman相关方程来进行变量之间的相关性分析。绘制受试者工作特征(ROC)曲线,并计算曲线下面积以评估刺激后NRI在检测定义为RE-SE>10的疼痛方面的诊断准确性。
结果
与伤害性刺激前相比,伤害性刺激后期间SBP、HR、NRI、RE、SE和RE-SE显著增加,PI值显著降低。在T2时,NRI的绝对值与熵指数之间无相关性。然而,在反应值中,NRI与RE的反应值之间存在弱相关性(r = 0.30;P = 0.05)。NRI检测定义为RE-SE>10的疼痛的ROC曲线下面积为0.56。
结论
在七氟醚麻醉期间,施加伤害性刺激会导致反映交感反应和EMG活动的变量发生显著变化。然而,NRI未能检测到伤害感受,且NRI与RE-SE的反应值之间仅存在弱相关性。
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