Realtime detection of spontaneous circulation in humans during cardiopulmonary resuscitation using a continuous hands-free carotid Doppler: a pilot study

IF 2.4 Q3 CRITICAL CARE MEDICINE

Resuscitation plus Pub Date : 2025-09-03 DOI:10.1016/j.resplu.2025.101080

Guro Mæhlum Krüger , Sunniva Gjerald Birkeli , Øystein Myrlund Hansen , Bjørn Ove Faldaas , Anders Norvik , Hedda Juni Lund , Gregory Louis Egil Hautois , John Helge Flage , Jon Urteaga , Torbjørn Hergum , Hans Torp , Eirik Skogvoll , Charlotte Björk Ingul

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引用次数: 0

Abstract

Background

The resuscitation society calls for precision-guided cardiopulmonary resuscitation (CPR), as current methods are inaccurate and time-consuming. RescueDoppler, a novel hands-free Doppler ultrasound system, continuously measures carotid blood flow during CPR. This pilot study assessed its performance, safety, and ability to detect chest compression-generated blood flow, spontaneous circulation, and return of spontaneous circulation (ROSC).

Method

We investigated RescueDoppler in adult cardiac arrest patients at two centres, in-hospital (IHCA) and out-of-hospital (OHCA). The cardiac arrest team placed the RescueDoppler probe over the left common carotid artery with a self-adhesive patch, collecting blinded data during CPR. Data were later interpreted and time-synchronized with defibrillator data using custom MATLAB® software.

Results

RescueDoppler was used in 26 IHCA and 36 OHCA patients from October 2023 to September 2024. Carotid blood flow curves were analyzed in 36 patients and synchronized with defibrillator data in 30. The RescueDoppler identified blood flow velocities generated by chest compressions and detected spontaneous circulation during rhythm checks. ROSC was defined by the presence of systolic and diastolic blood flow. No adverse events were reported but there were 22 device deficiencies mostly related to the self-adhesive patch and connecting cable. The system is user-friendly and requires minimal training.

Conclusion

Real-time detection of blood flow in the carotid artery with hands-free Doppler ultrasound during CPR is safe and feasible, although the fastening patch and host unit need optimization. The RescueDoppler system detects spontaneous circulation and ROSC during rhythm checks and ongoing chest compressions. Further research is required to confirm clinical relevance.

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使用连续免提颈动脉多普勒实时检测心肺复苏期间人体自发循环：一项试点研究

由于目前的方法不准确且耗时，复苏协会呼吁精确引导心肺复苏（CPR）。RescueDoppler是一种新型的免提多普勒超声系统，在心肺复苏术中连续测量颈动脉血流量。这项初步研究评估了它的性能、安全性和检测胸按压产生的血流、自发循环和自发循环恢复（ROSC）的能力。方法在院内（IHCA）和院外（OHCA）两个中心对成人心脏骤停患者进行了RescueDoppler调查。心脏骤停小组将装有自粘贴片的RescueDoppler探针放置在左颈总动脉上，在心肺复苏术期间收集盲法数据。随后使用定制的MATLAB®软件对数据进行解释，并与除颤器数据进行时间同步。结果2023年10月至2024年9月，在IHCA患者26例，OHCA患者36例中使用了rescuedoppler。分析了36例患者的颈动脉血流曲线，并与30例患者的除颤器数据同步。RescueDoppler可以识别胸部按压产生的血流速度，并在节律检查中检测到自发循环。ROSC通过存在收缩期和舒张期血流来定义。无不良事件报告，但有22个设备缺陷，主要与自粘贴片和连接电缆有关。该系统是用户友好的，需要最少的培训。结论在心肺复苏术中应用免提多普勒超声实时检测颈动脉血流是安全可行的，但需要对固定贴片和主机单元进行优化。RescueDoppler系统在节律检查和持续胸外按压过程中检测自发循环和ROSC。需要进一步的研究来证实临床相关性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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