基于设备剂量学信息优化的放射学警报阈值,以预测在血管荧光镜引导介入治疗期间 2 至 4Gy 之间的峰值皮肤剂量。
Optimized radiological alert thresholds based on device-dosimetric information to predict peak skin dose between 2 and 4 Gy during vascular fluoroscopically guided intervention.
机构信息
Department of Medical Physics, Jean Perrin Comprehensive Cancer Center, 63000, Clermont-Ferrand, France.
Clermont-Ferrand University, UMR 1240 INSERM IMoST, 63000, Clermont-Ferrand, France.
出版信息
Eur Radiol. 2023 Aug;33(8):5707-5716. doi: 10.1007/s00330-023-09538-8. Epub 2023 Mar 17.
OBJECTIVES
To provide radiologists and physicists with methodological tools to improve patient management after vascular fluoroscopically guided intervention (FGI) by providing optimized thresholds (OT) values that could be used as a surrogate to the thresholds classically proposed by the National Council on Radiation Protection (NCRP) or could be useful to adapt their own substantial radiation dose levels (SRDL) values.
METHODS
PSD of 2000-4000 mGy after FGI were calculated for 258 patients with dedicated software. Overall, the kerma and KAP 3D-ROC curves were used to assess the sensitivity (SEN) and specificity (SPE) of NCRP thresholds and OT for each PSD. Kiviat diagram and density curves were plotted for the best SEN/SPE pair of 3D-ROC curves and compared to the NCRP thresholds.
RESULTS
OT for both kerma and KAP generating the best SEN/SPE couple for PSD of 2000-4000 mGy were obtained. The SEN/SPE couple of each OT was always better than that obtained using NCRP ones. The best OT among all those calculated providing the highest SEN/SPE values for kerma (3020.5 mGy) and KAP (741.02 Gy.cm) were obtained when PSD was equal to 3300 mGy.
CONCLUSIONS
We have calculated OT in terms of kerma and KAP based on 3D-ROC curves analysis and peak skin dose calculations that can be obtained to better predict high skin dose. The use of OT that predicted PSD greater than 3000 mGy is likely to improve patient follow-up. The methodology developed in this work could be adapted to other institutions in order to better define their own SRDL.
KEY POINTS
• Optimized dose thresholds in terms of kerma and KAP based on 3D-ROC curves analysis and peak skin dose calculations between 2000 and 4000 mGy can be obtained to better predict high skin dose. • Patients receiving a peak skin dose between 2000 and 4000 mGy have their follow-up enhanced by using the optimized thresholds instead of the NCRP thresholds. • The best-optimized thresholds, corresponding to 3020.5 mGy and 741.02 Gy.cm for kerma and KAP respectively can be used instead of NRCP ones to trigger patient follow-up after fluoroscopically guided vascular interventions.
目的
为放射科医生和物理学家提供方法学工具,通过提供优化的阈值(OT)值来改善血管荧光镜引导介入(FGI)后的患者管理,这些值可作为经典的美国辐射防护委员会(NCRP)阈值的替代值,也可用于适应其自身的大量辐射剂量水平(SRDL)值。
方法
使用专用软件计算了 258 名患者的 FGI 后 2000-4000 mGy 的 PSD。总体而言,使用总体有效剂量(kerma)和三维吸收剂量(KAP)的受试者工作特征(ROC)曲线来评估 NCRP 阈值和 OT 对每个 PSD 的敏感性(SEN)和特异性(SPE)。绘制了 Kiviat 图和密度曲线,以获得 3D-ROC 曲线的最佳 SEN/SPE 对,并将其与 NCRP 阈值进行比较。
结果
为 2000-4000 mGy 的 PSD 生成最佳 SEN/SPE 对的 kerma 和 KAP 的 OT 均已获得。每个 OT 的 SEN/SPE 对始终优于使用 NCRP 获得的 SEN/SPE 对。当 PSD 等于 3300 mGy 时,从所有计算得出的 OT 中获得了为 kerma(3020.5 mGy)和 KAP(741.02 Gy.cm)生成最高 SEN/SPE 值的最佳 OT。
结论
我们已经根据 3D-ROC 曲线分析和峰值皮肤剂量计算得出了基于 kerma 和 KAP 的 OT,这些 OT 可以更好地预测高皮肤剂量。使用预测 PSD 大于 3000 mGy 的 OT 可能会改善患者随访。这项工作中开发的方法可以适用于其他机构,以便更好地定义其自身的 SRDL。
重点
在 2000 至 4000 mGy 之间,通过 3D-ROC 曲线分析和峰值皮肤剂量计算,可以获得基于 kerma 和 KAP 的优化剂量阈值,以更好地预测高皮肤剂量。
使用优化的阈值(而不是 NCRP 阈值)可以增强接受 2000 至 4000 mGy 峰值皮肤剂量的患者的随访。
对于 kerma 和 KAP,最佳优化阈值分别为 3020.5 mGy 和 741.02 Gy.cm,可以代替 NCRP 阈值,用于触发荧光镜引导血管介入后的患者随访。
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