Implementation and challenges of portable blood gas measurements in air medical transport

A. Murali, F. Guyette, C. Martin-Gill, Marion Jones, M. Kravetsky, Sarah E. Wheeler
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引用次数: 2

Abstract

Abstract Objectives Ventilator management in prehospital settings using end-tidal CO2 can lead to inappropriate ventilation in the absence of point of care blood gas (POCBG) measurements. Implementation of POCBG testing in helicopter Emergency Medical Services (HEMS) is limited in part because of concern for preanalytical and analytical errors due to altitude, vibration, and other associated environmental factors and due to insufficient documentation of implementation challenges. Methods We performed accuracy and precision verification studies using standard materials tested pre-, in-, and post-flight (n=10) in a large HEMS agency. Quality assurance error log data were extracted and summarized for common POCBG errors during the first 31 months of use and air medical transport personnel were surveyed regarding POCBG use (n=63). Results No clinically significant differences were found between pre-, in-, and post-flight blood gas measurements. Error log data demonstrated a reduction in device errors over time. Survey participants found troubleshooting device errors and learning new clinical processes to be the largest barriers to implementation. Continued challenges for participants coincided with error log data including temperature and sampling difficulties. Survey participants indicated that POCBG testing improved patient management. Conclusions POCBG testing does not appear to be compromised by the HEMS environment. Temperature excursions can be reduced by use of insulated transport bags with heating and cooling packs. Availability of POCBG results in air medical transport appeared to improve ventilator management, increase recognition of ventilation-perfusion mismatch, and improve patient tolerance of ventilation.
便携式血气测量在航空医疗运输中的实施与挑战
目的院前使用末潮CO2呼吸机管理可导致在缺乏护理点血气(POCBG)测量的情况下不适当的通气。在直升机紧急医疗服务(HEMS)中实施POCBG测试受到限制,部分原因是担心由于高度、振动和其他相关环境因素导致的分析前和分析误差,以及由于实施挑战的文件不足。方法:我们在一家大型HEMS机构使用飞行前、飞行中和飞行后测试的标准材料(n=10)进行了准确性和精密度验证研究。提取质量保证错误日志数据并总结使用前31个月的常见POCBG错误,并对航空医疗运输人员进行POCBG使用情况调查(n=63)。结果飞行前、飞行中、飞行后的血气测量无显著差异。错误日志数据表明,随着时间的推移,设备错误减少了。调查参与者发现排除设备错误和学习新的临床流程是实施的最大障碍。参与者面临的持续挑战与错误日志数据(包括温度和采样困难)相吻合。调查参与者表示,POCBG检测改善了患者管理。结论:POCBG检测不受HEMS环境的影响。温度偏差可以通过使用带有加热和冷却包的绝缘运输袋来减少。在空中医疗运输中,POCBG结果的可用性似乎可以改善呼吸机管理,增加对通气-灌注不匹配的认识,并提高患者对通气的耐受性。
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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