Communications Engineering Department, University of the Basque Country UPV/EHU, Alameda Urquijo S/N, 48013 Bilbao, Spain.
Resuscitation. 2013 Oct;84(10):1345-52. doi: 10.1016/j.resuscitation.2013.05.020. Epub 2013 Jun 4.
To analyze the feasibility of extracting the circulation component from the thoracic impedance acquired by defibrillation pads. The impedance circulation component (ICC) would permit detection of pulse-generating rhythms (PRs) during the analysis intervals of an automated external defibrillator when a non-shockable rhythm with QRS complexes is detected.
A dataset of 399 segments, 165 associated with PR and 234 with pulseless electrical activity (PEA) rhythms, was extracted from out-of-hospital cardiac arrest episodes by applying a conservative criterion. Records consisted of the electrocardiogram and the thoracic impedance signals free of artifacts due to thoracic compressions and ventilations. The impedance was processed using an adaptive scheme based on a least mean square algorithm to extract the ICC. Waveform features of the ICC signal and its first derivative were used to discriminate PR from PEA rhythms.
The segments were split into development (83 PR and 117 PEA rhythms) and testing (82 PR and 117 PEA rhythms) subsets with a mean duration of 10.6s. Three waveform features, peak-to-peak amplitude, mean power, and mean area were defined for the ICC signal and its first derivative. The discriminative power in terms of area under the curve with the testing dataset was 0.968, 0.971, and 0.969, respectively, when applied to the ICC signal, and 0.974, 0.988 and 0.988, respectively, with its first derivative.
A reliable method to extract the ICC of the thoracic impedance is feasible. Waveform features of the ICC or its first derivative show a high discriminative power to differentiate PR from PEA rhythms (area under the curve higher than 0.96 for any feature).
分析从除颤垫获取的胸部阻抗中提取循环分量的可行性。当检测到具有 QRS 复合体的不可电击节律时,阻抗循环分量 (ICC) 将允许在自动体外除颤器的分析间隔内检测到产生脉搏的节律 (PR)。
通过应用保守标准,从院外心脏骤停事件中提取了 399 个段,其中 165 个与 PR 相关,234 个与无脉搏电活动 (PEA) 节律相关。记录由心电图和胸部阻抗信号组成,这些信号不受因胸部按压和通气而产生的伪影影响。使用基于最小均方算法的自适应方案处理阻抗,以提取 ICC。ICC 信号及其一阶导数的波形特征用于区分 PR 与 PEA 节律。
将段分为开发(83 个 PR 和 117 个 PEA 节律)和测试(82 个 PR 和 117 个 PEA 节律)子集,平均持续时间为 10.6s。ICC 信号及其一阶导数定义了三个波形特征,即峰峰值幅度、平均功率和平均面积。使用测试数据集,在曲线下面积方面,ICC 信号的判别能力分别为 0.968、0.971 和 0.969,而其一阶导数的判别能力分别为 0.974、0.988 和 0.988。
提取胸部阻抗 ICC 的可靠方法是可行的。ICC 或其一阶导数的波形特征具有很高的判别能力,可以区分 PR 与 PEA 节律(任何特征的曲线下面积均高于 0.96)。
