计算机辅助病人监测:相关的病人、临床和心电图特征以及减少误报的策略

M. Pelter, D. Mortara, F. Badilini
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引用次数: 4

摘要

本章回顾了在重症监护病房的住院心电图(ECG)监测中检查假心律失常警报的研究。此外,我们还描述了UCSF护理学院生理研究中心正在进行的一项注释工作,旨在改进致命性心律失常(即心搏停止、室颤和室性心动过速)的算法。背景:报警疲劳是住院患者中严重的患者安全隐患。过去五年的数据显示,警报疲劳造成650多人死亡,由于报告不足,这一数字可能低于实际数字。心律失常警报是假警报的常见来源,90%是假的。虽然临床科学家已经实施了许多干预措施来减少这些类型的警报(例如,定制警报设置;每日皮肤电极变化;一次性与非一次性导线;和教育),只有微小的改进。这可能是因为这些干预措施没有解决心律失常虚假警报的主要问题,即心律失常算法的缺陷和过时。在本章中,我们将描述一些与心律失常假警报相关的心电图特征。此外,我们简要地讨论了我们小组为改进致死性心律失常算法所做的注释工作。
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Computer Assisted Patient Monitoring: Associated Patient, Clinical and ECG Characteristics and Strategy to Minimize False Alarms
This chapter is a review of studies that have examined false arrhythmia alarms during in-hospital electrocardiographic (ECG) monitoring in the intensive care unit. In addition, we describe an annotation effort being conducted at the UCSF School of Nursing, Center for Physiologic Research designed to improve algorithms for lethal arrhythmias (i.e., asystole, ventricular fibrillation, and ventricular tachycardia). Background: Alarm fatigue is a serious patient safety hazard among hospitalized patients. Data from the past five years, showed that alarm fatigue was responsible for over 650 deaths, which is likely lower than the actual number due to under-reporting. Arrhythmia alarms are a common source of false alarms and 90% are false. While clinical scientists have implemented a number of interventions to reduce these types of alarms (e.g., customized alarm settings; daily skin electrode changes; disposable vs. non-disposable lead wires; and education), only minor improvements have been made. This is likely as these interventions do not address the primary problem of false arrhythmia alarms, namely deficient and outdated arrhythmia algorithms. In this chapter we will describe a number of ECG features associated with false arrhythmia alarms. In addition, we briefly discuss an annotation effort our group has undertaken to improve lethal arrhythmia algorithms.
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