ALARA principles in practice: reduced frame and pulse rates for middle meningeal artery embolization.

Arvin R Wali, Ryan W Sindewald, Michael G Brandel, Sarath Pathuri, Brian R Hirshman, Javier A Bravo, Jeffrey A Steinberg, Jeffrey S Pannell, Alexander Khalessi, David R Santiago-Dieppa
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引用次数: 0

Abstract

Objective: As the prevalence of neuroendovascular interventions increases, it is critical to mitigate unnecessary radiation for patients, providers, and health care staff. Our group previously demonstrated reduced radiation dose and exposure during diagnostic angiography by reducing the default pulse and frame rates. We applied the same technique for basic neuroendovascular interventions.

Methods: We performed a retrospective review of prospectively acquired data after implementing a quality improvement protocol in which pulse rate and frame rate were reduced from 15 p/s to 7.5 p/s and 7.5 f/s to 4.0 f/s respectively. We studied consecutive, unilateral middle meningeal artery embolizations treated with particles. Total radiation dose, radiation per angiographic run, total radiation exposure, and exposure per run were calculated. Multivariable log-linear regression was performed to account for patient body mass index (BMI), number of angiographic runs, and number of vessels catheterized.

Results: A total of 20 consecutive, unilateral middle meningeal artery embolizations were retrospectively analyzed. The radiation reduction protocol was associated with a 39.2% decrease in the total radiation dose and a 37.1% decrease in radiation dose per run. The protocol was associated with a 41.6% decrease in the total radiation exposure and a 39.5% decrease in exposure per run.

Conclusions: Radiation reduction protocols can be readily applied to neuroendovascular interventions without increasing overall fluoroscopy time and reduce radiation dose and exposure by 39.2% and 41.6% respectively. We strongly encourage all interventionalists to be cognizant of pulse rate and frame rate when performing routine interventions.

ALARA 原则在实践中的应用:降低脑膜中动脉栓塞的帧率和脉搏率。
目的:随着神经内血管介入治疗的普及,减少对患者、医疗服务提供者和医护人员的不必要辐射至关重要。我们的研究小组之前通过降低默认脉冲和帧频,减少了诊断性血管造影的辐射剂量和暴露。我们将同样的技术应用于基本的神经内血管介入治疗:方法:在实施质量改进方案后,我们对前瞻性获取的数据进行了回顾性审查,其中脉率和帧率分别从 15 p/s 降至 7.5 p/s 和 7.5 f/s 降至 4.0 f/s。我们研究了用粒子治疗的连续单侧脑膜中动脉栓塞。我们计算了总辐射剂量、每次血管造影的辐射量、总辐射量和每次造影的辐射量。对患者体重指数(BMI)、血管造影次数和导管血管数量进行了多变量对数线性回归:对20例连续的单侧脑膜中动脉栓塞进行了回顾性分析。减少辐射方案使总辐射剂量减少了 39.2%,每次运行的辐射剂量减少了 37.1%。该方案使总辐射量减少了41.6%,每次运行的辐射量减少了39.5%:结论:减少辐射方案可在不增加整体透视时间的情况下轻松应用于神经内血管介入治疗,并可将辐射剂量和辐射量分别减少 39.2% 和 41.6%。我们强烈建议所有介入医师在进行常规介入时注意脉搏率和帧频。
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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