Miyoshi Machiko, Hasegawa Kanae, Maruyama Rikiya, Tateishi Toshiki, Nomura Ryohei, Tsuji Toshihiko, Mukai Moe, Tsujikawa Tetsuya, Uzui Hiroyasu, Tada Hiroshi
Department of Cardiovascular Medicine, Faculty of Medical Sciences, University of Fukui, 23-3, Matsuokashimoaizuki, Eiheiji-cho, Yoshida-gun, Fukui, 910-1193, Japan.
Department of Radiology, Faculty of Medical Sciences, University of Fukui, Fukui, Japan.
Heart Vessels. 2025 Jun 23. doi: 10.1007/s00380-025-02567-x.
Advances in interventional cardiology have increased procedural complexity, raising concerns about radiation exposure-especially for women operators of reproductive age, who are subject to stricter dose limits. Standard dosimeters provide only delayed cumulative data, limiting timely risk assessment. Real-time personal dosimetry offers immediate feedback, but its clinical utility during catheter ablation (CA) remains underexplored. We retrospectively analyzed 82 CA procedures performed between January and May 2024. First operators wore real-time dosimeters positioned at the waist under lead aprons. Radiation exposure and procedural characteristics were recorded and analyzed. The median operator radiation dose per procedure was 2 [1, 3] µSv, while the median patient dose was 0.163 [0.082, 0.324] Gy. A procedure-related cardiac tamponade requiring pericardiocentesis resulted in the highest operator dose (50 µSv). Higher patient BMI (≥ 25 kg/m) and longer fluoroscopy time were independently associated with increased operator exposure (OR: 1.238, P = 0.008; OR: 1.056, P = 0.022), though no linear correlation was observed between BMI and operator dose (r = 0.029, P = 0.797). Radiation exposure to operators during CA is generally low but may increase significantly in the event of complications or with higher-risk patient characteristics. Real-time dosimetry provides valuable immediate feedback and may be especially important for radiation-sensitive operators, supporting safer practice in the evolving field of interventional electrophysiology.
介入心脏病学的进展增加了手术的复杂性,引发了人们对辐射暴露的担忧,尤其是对育龄女性操作者而言,她们面临更严格的剂量限制。标准剂量计仅提供延迟的累积数据,限制了及时的风险评估。实时个人剂量测定可提供即时反馈,但其在导管消融(CA)过程中的临床效用仍未得到充分探索。我们回顾性分析了2024年1月至5月期间进行的82例CA手术。主操作者佩戴实时剂量计,置于铅衣下的腰部位置。记录并分析辐射暴露情况和手术特征。每次手术主操作者的辐射剂量中位数为2[1,3]微希沃特,而患者剂量中位数为0.163[0.082,0.324]戈瑞。一例需要心包穿刺术的与手术相关的心包填塞导致了最高的操作者剂量(50微希沃特)。患者较高的体重指数(≥25千克/平方米)和较长的透视时间与操作者暴露增加独立相关(比值比:1.238,P=0.008;比值比:1.056,P=0.022),尽管体重指数与操作者剂量之间未观察到线性相关性(r=0.029,P=0.797)。CA过程中操作者的辐射暴露一般较低,但在出现并发症或患者具有较高风险特征时可能会显著增加。实时剂量测定提供了有价值的即时反馈,对于辐射敏感的操作者可能尤为重要,有助于在不断发展的介入电生理学领域实现更安全的操作。
