Division of Cardiovascular Medicine, The Wexner Medical Center at the Ohio State University Medical Center , Columbus, OH, USA.
Expert Rev Med Devices. 2020 Nov;17(11):1183-1192. doi: 10.1080/17434440.2020.1819789. Epub 2020 Dec 27.
Cardiac electrophysiology (EP) procedures are frequently performed in patients with cardiac arrhythmias, chronic heart failure, and sudden cardiac death. Most EP procedures involve fluoroscopy, which results in radiation exposure to physicians, patients, and EP lab staff. Accumulated radiation exposure is a known health detriment to patients and physicians.
This review will summarize radiation exposure, dose metrics, complications of radiation exposure, factors affecting radiation exposure, minimizing radiation exposure, zero or near-zero fluoroscopy strategies, and up-to-date research in the area of reducing radiation exposure and best practices.
Comprehensive strategies should be implemented in EP laboratories to minimize radiation exposure with standard fluoroscopy. There are routine techniques that can mitigate significant amounts of radiation exposure using standard equipment within the EP lab. The operators need to emphasize that EP practices routinely incorporate non-ionizing radiation sources for cardiac imaging (e.g. magnetic resonance imaging, advanced electroanatomical mapping systems, intracardiac ultrasonography) in addition to other novel technologies to mitigate radiation exposure to patients and physicians.
心脏电生理学(EP)程序经常在心律失常、慢性心力衰竭和心脏性猝死患者中进行。大多数 EP 程序都涉及透视,这会导致医生、患者和 EP 实验室工作人员受到辐射。累积的辐射暴露对患者和医生的健康都是已知的危害。
本篇综述将总结辐射暴露、剂量指标、辐射暴露的并发症、影响辐射暴露的因素、最小化辐射暴露、零或近零透视策略,以及该领域减少辐射暴露和最佳实践的最新研究。
应在 EP 实验室中实施综合策略,以最小化标准透视的辐射暴露。有常规技术可以使用 EP 实验室中的标准设备减轻大量的辐射暴露。操作人员需要强调,EP 实践除了其他新型技术外,还经常将非电离辐射源用于心脏成像(例如磁共振成像、先进的电解剖映射系统、心内超声),以减轻患者和医生的辐射暴露。
