Detecting the Change in Total Circulatory Flow with a Wireless, Wearable Doppler Ultrasound Patch: A Pilot Study.

Chelsea E Munding, Jon-Émile S Kenny, Zhen Yang, Geoffrey Clarke, Mai Elfarnawany, Andrew M Eibl, Joseph K Eibl, Bhanu Nalla, Rony Atoui
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Abstract

Measuring fluid responsiveness is important in the management of critically ill patients, with a 10-15% change in cardiac output typically being used to indicate "fluid responsiveness." Ideally, these changes would be measured noninvasively and peripherally. The aim of this study was to determine how the common carotid artery (CCA) maximum velocity changes with total circulatory flow when confounding factors are mitigated and determine a value for CCA maximum velocity corresponding to a 10% change in total circulatory flow.

Design: Prospective observational pilot study.

Setting: Patients undergoing elective, on-pump coronary artery bypass grafting (CABG) surgery.

Patients: Fourteen patients were referred for elective coronary artery bypass grafting surgery.

Interventions: Cardiopulmonary bypass (CPB) pump flow changes during surgery, as chosen by the perfusionist.

Measurements: A hands-free, wearable Doppler patch was used for CCA velocity measurements with the aim of preventing user errors in ultrasound measurements. Maximum CCA velocity was determined from the spectrogram acquired by the Doppler patch. CPB flow rates were recorded as displayed on the CPB console, and further measured from the peristaltic pulsation frequency visible on the recorded Doppler spectrograms.

Main results: Changes in CCA maximum velocity tracked well with changes in CPB flow. On average, a 13.6% change in CCA maximum velocity was found to correspond to a 10% change in CPB flow rate.

Conclusions: Changes in CCA velocity may be a useful surrogate for determining fluid responsiveness when user error can be mitigated.

Abstract Image

用无线可穿戴多普勒超声贴片检测总循环流量的变化:一项试点研究。
测量液体反应性在危重病人的管理中很重要,通常使用10-15%的心输出量变化来指示“液体反应性”。理想情况下,这些变化应该是无创的和外围的。本研究的目的是确定当混杂因素减轻时,颈总动脉(CCA)最大流速如何随总循环流量变化,并确定总循环流量变化10%时对应的CCA最大流速值。设计:前瞻性观察性先导研究。背景:接受选择性无泵冠状动脉旁路移植术(CABG)的患者。患者:14例患者接受择期冠状动脉搭桥术。干预措施:手术期间体外循环(CPB)泵流量的变化,由灌注师选择。测量:使用免提、可穿戴的多普勒贴片进行CCA速度测量,目的是防止用户在超声测量中出现错误。最大CCA速度由多普勒贴片获得的频谱图确定。CPB流量记录显示在CPB控制台上,并进一步从记录的多普勒频谱图上可见的蠕动脉动频率进行测量。主要结果:CCA最大流速的变化与CPB流量的变化密切相关。平均而言,CCA最大流速的13.6%变化对应于CPB流量的10%变化。结论:当用户错误可以减轻时,CCA速度的变化可能是确定流体响应性的有用替代。
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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