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Detecting Brain Activity Variation of Rat During Anesthesia by Spectral Entropy

机译：光谱熵检测大鼠麻醉过程中脑活动的变化

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In order to detect and measure the brain activity variation under different depth of anesthesia (DOA), the spectral entropy (SE) of electroencephalogram (EEG) of the SD rat was studied in this paper. The SE of EEG was measured under different DOA and the relationship between SE and the DOA was analyzed. The SE of EEG will decrease quickly while the DOA is from light to deep and vice versa, so it can be used to distinguish light and deep anesthesia, but it can not distinguish awake and light anesthesia accurately. Compared with power spectrum, we can see the change of SE is opposite to that of power spectrum. Besides EEG SE analysis, the SE variations of four rhythms of EEG (delta, theta, alpha and beta) also are analyzed. The study shows SE of delta rhythm dynamic change leads to the change of EEG and the delta rhythm is the dominant rhythm of rat during anesthesia

机译：为了检测和测量不同麻醉深度（DOA）下脑活动的变化，本文研究了SD大鼠脑电图（EEG）的光谱熵（SE）。在不同DOA下测量EEG的SE，并分析SE与DOA之间的关系。当DOA从浅到深时，EEG的SE会迅速下降，反之亦然，因此它可用于区分浅麻醉和深麻醉，但不能准确区分清醒和浅麻醉。与功率谱相比，我们可以看到SE的变化与功率谱的变化相反。除EEG SE分析外，还分析了EEG的四个节律（δ，θ，α和β）的SE变化。研究表明，Δ节律的动态变化导致SEG的变化，Δ节律是大鼠麻醉过程中的主要节律

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《》|2005年|6985-6988|共4页
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Jin Xu; Chongxun Zheng; Xueliang Liu; Xiaomei Pei; Guixia Jing;
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electroencephalography; entropy; medical signal detection; medical signal processing; EEG; alpha rhythm; anesthesia; beta rhythm; brain activity variation detection; delta rhythm; electroencephalogram; power spectrum; rat; spectral entropy; theta rhythm;

机译：脑电图;熵;医学信号检测;医学信号处理; EEG;α节律;麻醉;β节律;脑活动变化检测;δ节律;脑电图;功率谱;大鼠;光谱熵;θ节律;

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1. Propofol Effect-Site Concentration, Bispectral Index and Spectral Entropy as Guides for Propofol Sedation duringSpinal Anesthesia [J] . Roshdi R Al-metwalli Kuwait Medical Journal . 2016,第June期

机译：丙泊酚作用部位浓度，双光谱指数和光谱熵作为脊髓麻醉期间丙泊酚镇静的指南
2. Increase in high frequency EEG activity explains the poor performance of EEG spectral entropy monitor during S-ketamine anesthesia. [J] . Maksimow A, Sarkela M, Langsjo JW, Clinical neurophysiology . 2006,第8期

机译：高频脑电活动的增加可以解释S-氯胺酮麻醉期间脑电图频谱熵监测器的性能不佳。
3. Preoperative paracetamol infusion reduces sevoflurane consumption during thyroidectomy under general anesthesia with spectral entropy monitoring [J] . Waleed M. Abdelmageed, Waleed M. Al Taher Egyptian Journal of Anaesthesia . 2014,第2期

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4. Detecting Brain Activity Variation of Rat During Anesthesia by Spectral Entropy [C] . Jin Xu, Chongxun Zheng, Xueliang Liu, Annual International Conference IEEE Engineering in Medicine and Biology Society . 2005

机译：通过光谱熵检测大鼠大鼠大鼠的脑活动变化
5. AN ELECTROENCEPHALOGRAM MONITORING TECHNIQUE TO DETECT SPECIFIC LEVELS OF BRAIN SATURATION DURING INHALATION ANESTHESIA. [D] . SHAFFER, MICHAEL JOHN. 1981

机译：一种电眼监测技术，用于在吸入麻醉期间检测特定的脑液饱和水平。
6. Dynamic multi-scale modes of resting state brain activity detected by entropy field decomposition [O] . Lawrence R. Frank, Vitaly L. Galinsky -1

机译：熵场分解检测静止状态大脑活动的动态多尺度模式
7. Entropia: um novo método de mensuração da profundidade da anestesia. Estudo comparativo com o índice bispectral na avaliação clínica da intubação traqueal com sevoflurano Entropía: un nuevo método de mensuración de la profundidad de la anestesia. Estudio comparativo con el índice bispectral en la evaluación clínica de la entubación traqueal con sevoflurano Entropy: a new method of measuring depth of anesthesia. Comparative study with bispectral index during clinical evaluation in tracheal intubation of patients anesthetized with sevoflurane [O] . Rogean Rodrigues Nunes 2004

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8. Application of Hyperspectral Vegetation Indices to Detect Variations in High Leaf Area Index Temperate Shrub Thicket Canopies. [R] . Brantley, S. T., Zinnert, J. C., Young, D. R. 2011

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Detecting Brain Activity Variation of Rat During Anesthesia by Spectral Entropy

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