Real-time cardiorespiratory coherence is blind to changes in respiration during general anesthesia

机译：全身麻醉期间实时心肺连贯性对呼吸变化无视

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Purpose. A novel real-time cardiorespiratory coherence (CRC) algorithm has been developed to monitor nociception during general anesthesia. CRC uses custom designed filters to track and analyze the respiratory sinus arrhythmia (RSA) as it moves in time and frequency. CRC is a form of sensor fusion between heart rate and respiration, estimating the strength of linear coupling between the two signals. The aim of this study was to estimate the effect of changes in respiration rate (RR) and peak airway pressure (PPaw) on CRC. The response of CRC was compared to a prior offline wavelet-based algorithm (WTCRC) as well as traditional univariate heart rate variability (HRV) measures. A nociception index was created for each algorithm, ranging from 0 (no nociception) to 100 (strong nociception).

机译：目的。已经开发了一种新颖的实时心肺连贯性（CRC）算法来监测全身麻醉期间的伤害感受。 CRC使用定制设计的过滤器来跟踪和分析呼吸窦性心律失常（RSA）的时空变化。 CRC是心率和呼吸之间的传感器融合形式，用于估计两个信号之间的线性耦合强度。这项研究的目的是估计呼吸速率（RR）和气道峰值压力（PPaw）的变化对CRC的影响。将CRC的响应与以前的基于离线小波的算法（WTCRC）以及传统的单变量心率变异性（HRV）进行了比较。为每种算法创建了一个伤害感受指数，范围从0（无伤害感受）到100（强伤害感受）。

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《Annual Conference of Japanese Society for Medical and Biological Engineering;Annual International Conference of the IEEE Engineering in Medicine and Biology Society 》|2013年|5360-5364|共5页
会议地点 Osaka(JP)
作者
Brouse, Chris J.; Dumont, Guy A.; Myers, Dorothy; Cooke, Erin;
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Department of Electrical & Computer Engineering University of British Columbia Vancouver Canada|c|;

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1. Monitoring nociception during general anesthesia with cardiorespiratory coherence [J] . BrouseC.J., KarlenW., DumontG.A., Journal of clinical monitoring and computing . 2013 ,第5期

机译：通过心肺连贯性监测全身麻醉期间的伤害感受
2. Real-time human respiration carbon dioxide measurement device for cardiorespiratory assessment [J] . Om Prakash Singh, Teo Aik Howe, MB Malarvili Journal of breath research . 2018 ,第2期

机译：用于心肺评估的实时人类呼吸二氧化碳测量装置
3. Real-time epidural anesthesia guidance using optical coherence tomography needle probe [J] . Chia-Pin Liang, Qinggong Tang, Yu Chen, Quantitative Imaging in Medicine and Surgery . 2014 ,第1期

机译：光学相干断层扫描针探针实时硬膜外麻醉引导
4. Real-Time Cardiorespiratory Coherence is Blind to Changes in Respiration During General Anesthesia [C] . Chris J. Brouse, Guy A. Dumont, Dorothy Myers, IEEE Engineering in Medicine and Biology Society., Conference. . 2013

机译：实时心肺连贯性是呼吸在全身麻醉期间的变化视而不见
5. Novel incorporation of biomedical engineering algorithms (bispectral index guided or anesthetic concentration guided) in real-time decision support to prevent intraoperative awareness using an electronic anesthesia information management system. [D] . Shanks, Amy Melanie. 2015

机译：实时决策支持中将生物医学工程算法（双频谱指数指导或麻醉药浓度指导）进行了新的合并，以防止使用电子麻醉信息管理系统进行术中知晓。
6. Real-time epidural anesthesia guidance using optical coherence tomography needle probe [O] . Qinggong Tang, Chia-Pin Liang, Kyle Wu, 2015

机译：光学相干断层扫描针探针实时硬膜外麻醉引导
7. Comparison of Acoustic Respiration Rate, Impedance Pneumography and Capnometry Monitors for Respiration Rate Accuracy and Apnea Detection during GI Endoscopy Anesthesia [O] . Ashish C. Sinha, Rebecca M. Speck, Basavana Gouda Goudra, 2013

机译：GI内窥镜麻醉过程中声呼吸率，阻抗呼吸描记法和二氧化碳测定仪对呼吸率准确性和呼吸暂停检测的比较

Real-time cardiorespiratory coherence is blind to changes in respiration during general anesthesia

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