Jeon Hosang, Kim Dong Woon, Joo Ji Hyeon, Ki Yongkan, Kang Suk-Woong, Shin Won Chul, Yoon Seong Hoon, Kim Yun Seong, Yong Seung Hyun, Chung Hyun Sung, Lee Taehoon, Seol Hee Yun
Department of Radiation Oncology, University of Texas Southwestern Medical Center, Dallas, TX 75390, USA.
Department of Radiation Oncology, Pusan National University Yangsan Hospital, Yangsan 50612, Republic of Korea.
J Clin Med. 2025 Mar 20;14(6):2114. doi: 10.3390/jcm14062114.
: Fluoroscopy has been widely adopted in interventional pulmonology, as it facilitates real-time visualization of the bronchoscope, endobronchial ultrasound, and biopsy tools during procedures. The purpose of this study was to evaluate the effectiveness of radiation shields in minimizing scattered X-ray dose to the bronchoscopist in a phantom study and to determine the dose of scattered X-ray dose to medical staff with radiation shields in clinical application. : An anthropomorphic torso phantom was positioned on the fluoroscopic table between the C-arm X-ray tube and the image detector to mimic bronchoscopic operations. Upper and lower body lead shields were used to examine the effectiveness of radiation shielding. Scatter radiation rates were assessed at a first operator location using real-time dosimeters with and without protective devices. In clinical application, the scattered X-ray dose of the first operator and main assistant was measured using wearable radiation dosimeters during 20 procedures. : In the phantom study, scattered radiation without shielding was 266.34 ± 8.86 μSv/h (glabella), 483.90 ± 8.01 μSv/h (upper thorax), 143.97 ± 8.20 μSv/h (hypogastrium), and 7.22 ± 0.28 μSv/h (ankle). The combination of upper and lower body lead shields reduced the scattered X-ray dose by 98.7%, 98.3%, 66.2%, and 79.9% at these levels, respectively. In clinical application, mean scattered X-ray dose rates were 0.14 ± 0.05 μSv/procedure (eye), 0.46 ± 0.51 μSv/procedure (chest), 0.67 ± 0.50 μSv/procedure (hypogastrium), and 1.57 ± 2.84 μSv/procedure (assistant's wrist). : The combination of radiation shields significantly reduced the scattered X-ray dose at the operator site in the phantom study. The scattered X-ray dose to medical staff during bronchoscopy can be kept at a low level with the aid of a shielding system.
荧光透视已在介入肺脏病学中广泛应用,因为它有助于在手术过程中对支气管镜、支气管内超声及活检工具进行实时可视化。本研究的目的是在模型研究中评估辐射防护屏在将散射X射线剂量降至最低以保护支气管镜检查医师方面的有效性,并确定在临床应用中使用辐射防护屏时医护人员所接受的散射X射线剂量。:将一个仿真人体躯干模型置于荧光透视检查台上,位于C形臂X射线管与图像探测器之间,以模拟支气管镜操作。使用上半身和下半身铅防护屏来检测辐射防护效果。在第一个操作人员位置,使用实时剂量仪在有和没有防护装置的情况下评估散射辐射率。在临床应用中,在20例手术过程中,使用可穿戴辐射剂量仪测量第一个操作人员和主要助手所接受的散射X射线剂量。:在模型研究中,无防护时的散射辐射在眉间为266.34±8.86μSv/小时,上胸部为483.90±8.01μSv/小时,下腹部为143.97±8.20μSv/小时,脚踝为7.22±0.28μSv/小时。上半身和下半身铅防护屏组合分别使这些部位的散射X射线剂量降低了98.7%、98.3%、66.2%和79.9%。在临床应用中,平均散射X射线剂量率在眼部为0.14±0.05μSv/例,胸部为0.46±0.51μSv/例,下腹部为0.67±0.50μSv/例,助手手腕为1.57±2.84μSv/例。:在模型研究中,辐射防护屏组合显著降低了操作人员位置的散射X射线剂量。借助防护系统,支气管镜检查期间医护人员所接受的散射X射线剂量可保持在较低水平。
