荷兰儿科透视成像的诊断参考水平曲线。
Diagnostic reference level curves for paediatric fluoroscopic imaging in the Netherlands.
作者信息
Croes Goswin, Nijholt Ingrid, Boomsma Martijn, Bleeker Gitta, Greuter Marcel, Jeukens Cécile, van Pul Carola, Siegersma Jenny, Streekstra Geert, Vegter Alie, Dam-Vervloet Lida
机构信息
Department of Medical Physics, Isala Hospital, Zwolle, The Netherlands.
Department of Medical Imaging, Radboud University Medical Center, Nijmegen, The Netherlands.
出版信息
Eur Radiol. 2025 Sep 6. doi: 10.1007/s00330-025-11643-9.
OBJECTIVES
Establishing paediatric DRLs is challenging due to sparse data availability. The objective was to assess paediatric fluoroscopic dose levels in Dutch clinical practice, as current diagnostic reference levels (DRLs) need updating following the European Guidelines on DRLs for Paediatric Imaging (PiDRL).
MATERIAL AND METHODS
Air Kerma-area Product (KAP) values were retrospectively collected from paediatric patients (0-18 years) who underwent fluoroscopic procedures in nine Dutch hospitals between 01-01-2017 and 01-06-2021. The protocols included were: micturating cystourethrography (MCU), upper gastrointestinal (Upper GI) and lower gastrointestinal with contrast enema (Lower GI). In accordance with the PiDRL recommendations for sparse data, the 75th percentiles of the median KAP values per age group from each hospital were fitted using an exponential dose-age curve, resulting in an age-dependent DRL curve. DRL values were compared to Dutch, other European national and European DRLs.
RESULTS
A total of 971 examinations were included. For MCU, the proposed DRL curve was lower than the Dutch DRLs. The proposed DRL curve for Upper GI was also lower than the UK DRLs. No DRL curve could be established for Lower GI due to limited data.
CONCLUSIONS
Paediatric fluoroscopic dose levels in this study are substantially lower than the current Dutch DRLs, indicating the need for new national Dutch DRLs for MCU. This study proposes using a DRL dose-age curve to update Dutch paediatric DRLs. Using the proposed curve method, more DRLs could be established than with the conventional method. The proposed DRL curves might serve as input for updating Dutch paediatric DRLs.
KEY POINTS
Question Current Dutch diagnostic reference levels for paediatric fluoroscopy need updating, which is challenging due to sparse data availability. Findings Observed dose levels in this retrospective study indicate a potential decrease in Dutch diagnostic reference levels for paediatric fluoroscopy, using a dose-age curve method. Clinical relevance Updating Dutch paediatric fluoroscopic DRLs using a dose-age curve method allows for the establishment of DRLs in case of sparse data availability. This allows for further optimisation of radiation doses in the paediatric population.
目的
由于可用数据稀少,建立儿科剂量参考水平(DRLs)具有挑战性。目的是评估荷兰临床实践中的儿科透视剂量水平,因为根据欧洲儿科成像剂量参考水平指南(PiDRL),当前的诊断参考水平(DRLs)需要更新。
材料与方法
回顾性收集2017年1月1日至2021年6月1日期间在荷兰九家医院接受透视检查的儿科患者(0至18岁)的空气比释动能面积乘积(KAP)值。纳入的检查项目包括:排尿性膀胱尿道造影(MCU)、上消化道造影(Upper GI)和下消化道造影(Lower GI)加钡剂灌肠。根据PiDRL对稀疏数据的建议,使用指数剂量-年龄曲线拟合每家医院各年龄组KAP中位数的第75百分位数,得出年龄相关的DRL曲线。将DRL值与荷兰、其他欧洲国家以及欧洲的DRL进行比较。
结果
共纳入971例检查。对于MCU,建议的DRL曲线低于荷兰的DRL。上消化道造影建议的DRL曲线也低于英国的DRL。由于数据有限,无法为下消化道造影建立DRL曲线。
结论
本研究中的儿科透视剂量水平显著低于当前荷兰的DRL,表明需要制定荷兰新的MCU国家DRL。本研究建议使用DRL剂量-年龄曲线来更新荷兰儿科DRL。使用建议的曲线方法,可以比传统方法建立更多的DRL。建议的DRL曲线可作为更新荷兰儿科DRL的依据。
关键点
问题 当前荷兰儿科透视的诊断参考水平需要更新,由于可用数据稀少,这具有挑战性。发现 本回顾性研究中观察到的剂量水平表明,使用剂量-年龄曲线方法,荷兰儿科透视的诊断参考水平可能降低。临床意义 使用剂量-年龄曲线方法更新荷兰儿科透视DRL,在数据稀少的情况下也能建立DRL。这有助于进一步优化儿科人群的辐射剂量。
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