调度辅助 CPR:在向紧急调度员呼叫期间存在哪些延误?使用新型通话转录技术对院外心脏骤停期间来电者与调度员之间交互作用的初步分析。
Dispatch-assisted CPR: where are the hold-ups during calls to emergency dispatchers? A preliminary analysis of caller-dispatcher interactions during out-of-hospital cardiac arrest using a novel call transcription technique.
机构信息
Emergency Medicine Research Group, Edinburgh, United Kingdom; Queen's Medical Research Institute, The University of Edinburgh, Little France Crescent, Edinburgh EH16 4SA, United Kingdom.
Emergency Medicine Research Group, Edinburgh, United Kingdom; Emergency Department, Royal Infirmary of Edinburgh, Little France Crescent, Edinburgh EH16 4SA, United Kingdom.
出版信息
Resuscitation. 2014 Jan;85(1):49-52. doi: 10.1016/j.resuscitation.2013.08.018. Epub 2013 Sep 1.
BACKGROUND
Survival from out-of-hospital cardiac arrest (OHCA) is dependent on the chain of survival. Early recognition of cardiac arrest and provision of bystander cardiopulmonary resuscitation (CPR) are key determinants of OHCA survival. Emergency medical dispatchers play a key role in cardiac arrest recognition and giving telephone CPR advice. The interaction between caller and dispatcher can influence the time to bystander CPR and quality of resuscitation. We sought to pilot the use of emergency call transcription to audit and evaluate the holdups in performing dispatch-assisted CPR.
METHODS
A retrospective case selection of 50 consecutive suspected OHCA was performed. Audio recordings of calls were downloaded from the emergency medical dispatch centre computer database. All calls were transcribed using proprietary software and voice dialogue was compared with the corresponding stage on the Medical Priority Dispatch System (MPDS). Time to progress through each stage and number of caller-dispatcher interactions were calculated.
RESULTS
Of the 50 downloaded calls, 47 were confirmed cases of OHCA. Call transcription was successfully completed for all OHCA calls. Bystander CPR was performed in 39 (83%) of these. In the remaining cases, the caller decided the patient was beyond help (n = 7) or the caller said that they were physically unable to perform CPR (n = 1). MPDS stages varied substantially in time to completion. Stage 9 (determining if the patient is breathing through airway instructions) took the longest time to complete (median = 59 s, IQR 22-82 s). Stage 11 (giving CPR instructions) also took a relatively longer time to complete compared to the other stages (median = 46 s, IQR 37-75 s). Stage 5 (establishing the patient's age) took the shortest time to complete (median = 5.5s, IQR 3-9s).
CONCLUSION
Transcription of OHCA emergency calls and caller-dispatcher interaction compared to MPDS stage is feasible. Confirming whether a patient is breathing and completing CPR instructions required the longest time and most interactions between caller and dispatcher. Use of call transcription has the potential to identify key factors in caller-dispatcher interaction that could improve time to CPR and further research is warranted in this area.
背景
院外心脏骤停(OHCA)的生存取决于生存链。早期识别心脏骤停和提供旁观者心肺复苏(CPR)是 OHCA 生存的关键决定因素。紧急医疗调度员在心脏骤停识别和提供电话 CPR 建议方面发挥着关键作用。呼叫者和调度员之间的互动会影响旁观者 CPR 的实施时间和复苏质量。我们试图试点使用紧急呼叫转录来审核和评估执行调度协助 CPR 时的障碍。
方法
对 50 例连续疑似 OHCA 进行回顾性病例选择。从紧急医疗调度中心计算机数据库下载呼叫的音频记录。使用专有软件转录所有呼叫,将语音对话与医疗优先调度系统(MPDS)的相应阶段进行比较。计算每个阶段的进展时间和呼叫者-调度者交互的数量。
结果
在下载的 50 个呼叫中,有 47 个被确认为 OHCA 病例。所有 OHCA 呼叫的转录都成功完成。在这些病例中,有 39 例(83%)实施了旁观者 CPR。在其余病例中,呼叫者决定患者无法挽救(n=7)或呼叫者表示他们无法进行 CPR(n=1)。MPDS 阶段在完成时间上差异很大。第 9 阶段(通过气道指令确定患者是否呼吸)完成时间最长(中位数=59 秒,IQR 22-82 秒)。与其他阶段相比,第 11 阶段(给予 CPR 指令)也需要相对较长的时间才能完成(中位数=46 秒,IQR 37-75 秒)。第 5 阶段(确定患者年龄)完成时间最短(中位数=5.5 秒,IQR 3-9 秒)。
结论
OHCA 紧急呼叫的转录和呼叫者-调度者交互与 MPDS 阶段相比是可行的。确认患者是否呼吸并完成 CPR 指令需要呼叫者和调度者之间最长的时间和最多的交互。使用呼叫转录有可能确定呼叫者-调度者交互中的关键因素,这些因素可以提高 CPR 的实施时间,因此在这方面需要进一步研究。
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