Department of Anaesthesia and Acute Pain Medicine, St. Vincent's Hospital, Melbourne.
Anaesthesia. 2018 Jun;73(6):746-749. doi: 10.1111/anae.14250. Epub 2018 Mar 9.
Electrocardiogram (ECG) false alarms are common in electrically-hostile peri-operative environments. Newer integrated monitoring, with sophisticated hardware and software, has the potential to minimise artefacts. However, monitoring issues continue to occur, with the potential for critical incidents and unnecessary and harmful interventions. We describe the root cause analysis of a series of apparent ECG flatline asystolic events that appeared in the operating room shortly after the introduction of new intra-operative monitoring systems. Clinical events and biomedical laboratory testing revealed complete loss of ECG signal with increasing resistance. The new ECG systems had incorporated both software and hardware changes to improve the fidelity of signal acquisition and display, but had become much more sensitive to impedance changes. After we alerted the manufacturer, they added software and hardware updates that resulted in resolution of all incidents of ECG loss-of-signal.
心电图(ECG)假警报在电敌对的围手术期环境中很常见。具有复杂硬件和软件的新型集成监测有可能最小化伪影。但是,监测问题仍然存在,有可能发生危急事件和不必要的有害干预。我们描述了在引入新的术中监测系统后不久在手术室中出现的一系列明显的 ECG 平线停搏事件的根本原因分析。临床事件和生物医学实验室测试显示,随着电阻的增加,ECG 信号完全丢失。新的 ECG 系统已经结合了软件和硬件更改,以提高信号采集和显示的保真度,但对阻抗变化变得更加敏感。在我们向制造商发出警报后,他们添加了软件和硬件更新,从而解决了所有 ECG 信号丢失事件。
