Nilsson L, Johansson A, Kalman S
Department of Anaesthesiology and Intensive Care, Linköping University Hospital, Linköping, Sweden.
Acta Anaesthesiol Scand. 2005 Sep;49(8):1157-62. doi: 10.1111/j.1399-6576.2005.00721.x.
Photoplethysmography (PPG) is a non-invasive optical technique used, for instance, in pulse oximetry. Beside the pulse synchronous component, PPG has a respiratory synchronous variation (PPGr). Efforts have been made to utilize this component for indirect monitoring of respiratory rate and volume. Assessment of the clinical usefulness as well as of the physiological background of PPGr is required. We evaluated if anaesthesia and positive-pressure ventilation would affect PPGr.
We recorded reflection mode PPGr, at the forearm, and the respiratory synchronous changes in central venous pressure (CVP), peripheral venous pressure (PVP) and arterial blood pressure (ABP) in 12 patients. Recordings for each patient were made on three occasions: awake with spontaneous breathing; anaesthetized with spontaneous breathing; and anaesthetized with positive-pressure ventilation. We analyzed the sensitivity, specificity, coherence and time relationship between the signals.
PPGr sensitivity for breath detection was [mean (SD)] >86(21)% and specificity >96(12)%. Respiratory detection in the macrocirculation (CVP, PVP and ABP) showed a sensitivity >83(29)% and specificity >93(12)%. The coherence between signals was high (0.75-0.99). The three measurement situations did not significantly influence sensitivity, specificity or time shifts between the PPGr, PVP, ABP, and the reference CVP signal despite changes in physiological data between measurements.
A respiratory synchronous variation in PPG and all invasive pressure signals was detected. The reflection mode PPGr signal seemed to be a constant phenomenon related to respiration regardless of whether or not the subject was awake, anaesthetized or ventilated, which increases its clinical usefulness in respiratory monitoring.
光电容积脉搏波描记法(PPG)是一种非侵入性光学技术,例如用于脉搏血氧饱和度测定。除了脉搏同步成分外,PPG还有呼吸同步变化(PPGr)。人们已努力利用该成分间接监测呼吸频率和容积。需要评估PPGr的临床实用性及其生理背景。我们评估了麻醉和正压通气是否会影响PPGr。
我们记录了12例患者前臂的反射模式PPGr以及中心静脉压(CVP)、外周静脉压(PVP)和动脉血压(ABP)的呼吸同步变化。对每位患者的记录分三次进行:自主呼吸清醒时;自主呼吸麻醉时;正压通气麻醉时。我们分析了信号之间的敏感性、特异性、相干性和时间关系。
PPGr对呼吸检测的敏感性为[均值(标准差)]>86(21)%,特异性>96(12)%。体循环(CVP、PVP和ABP)中的呼吸检测显示敏感性>83(29)%,特异性>93(12)%。信号之间的相干性很高(0.75 - 0.99)。尽管测量之间生理数据有所变化,但三种测量情况对PPGr、PVP、ABP和参考CVP信号之间的敏感性、特异性或时间偏移没有显著影响。
检测到PPG和所有有创压力信号中的呼吸同步变化。反射模式PPGr信号似乎是一种与呼吸相关的恒定现象,无论受试者是清醒、麻醉还是通气状态,这增加了其在呼吸监测中的临床实用性。
