介入放射学中的生物剂量测定:基于皮肤的免疫测定法预测皮炎风险。
Biodosimetry in interventional radiology: cutaneous-based immunoassay for anticipating risks of dermatitis.
机构信息
Acubens, Antony, France.
Service de Radiologie CHU Gabriel-Montpied, Clermont-Ferrand, France.
出版信息
Eur Radiol. 2021 Oct;31(10):7476-7483. doi: 10.1007/s00330-021-07885-y. Epub 2021 Mar 31.
OBJECTIVES
Interventional radiology procedures expose individuals to ionizing radiation. However, existing dosimetry methods do not provide the dose effectively absorbed to the skin, and do not consider the patient's individual response to irradiation. To resolve this lack of dosimetry data, we developed a new external irradiation biodosimetry device, DosiKit, based on the dose-dependent relationship between irradiation dose and radiation-induced H2AX protein phosphorylation in hair follicles. This new biological method was tested in Clermont-Ferrand University Hospital to evaluate the assay performances in the medical field and to estimate DosiKit sensitivity threshold.
METHODS
DosiKit was tested over 95 patients treated with neuroradiological interventions. For each intervention, lithium fluoride thermoluminescent dosimeters (TLD) were used to measure total dose received at each hair collection point (lateral and occipital skull areas), and conventional indirect dosimetry parameters were collected with a Dosimetry Archiving and Communication System (DACS).
RESULTS
Quantitative measurement of radiation-induced H2AX protein phosphorylation was performed on 174 hair samples before and after the radiation exposure and 105 samples showed a notable induction of gammaH2AX protein after the radiological procedure. According to a statistical analysis, the threshold sensitivity of the DosiKit immunoassay was estimated around 700 mGy.
CONCLUSIONS
With this study, we showed that DosiKit provides a useful way for mapping the actually absorbed doses, allowing to identify patients overexposed in interventional radiology procedures, and thus for anticipating risk of developing dermatitis.
KEY POINTS
• DosiKit is a new external irradiation biodosimetry device, based on the dose-dependent relationship between irradiation dose and radiation-induced H2AX protein phosphorylation in hair follicles. • DosiKit was tested over 95 patients treated with neuroradiological interventions. • The threshold sensitivity of the DosiKit immunoassay was estimated around 700 mGy and DosiKit provides a useful way for mapping the actually absorbed doses.
目的
介入放射学程序会使个体暴露于电离辐射下。然而,现有的剂量测定方法无法提供皮肤有效吸收的剂量,也未考虑到患者对辐射的个体反应。为了解决这一缺乏剂量测定数据的问题,我们基于照射剂量与毛囊中辐射诱导的 H2AX 蛋白磷酸化之间的剂量依赖性关系,开发了一种新的外部照射生物剂量测定仪 DosiKit。这种新的生物学方法在克莱蒙费朗大学附属医院进行了测试,以评估其在医学领域的检测性能,并估计 DosiKit 的灵敏度阈值。
方法
对 95 名接受神经放射学介入治疗的患者进行了 DosiKit 检测。对于每次介入,在每次毛发采集点(侧颅和枕骨区域)测量所接受的总剂量时,使用氟化锂热释光剂量计(TLD),并使用剂量档案和通信系统(DACS)收集常规间接剂量测定参数。
结果
对 174 个辐射暴露前后的毛发样本进行了辐射诱导的 H2AX 蛋白磷酸化的定量测量,其中 105 个样本在放射程序后显示出 γH2AX 蛋白的显著诱导。根据统计分析,DosiKit 免疫测定的阈值灵敏度约为 700 mGy。
结论
通过这项研究,我们表明 DosiKit 为绘制实际吸收剂量提供了一种有用的方法,可用于识别介入放射学程序中过度暴露的患者,从而预测发生皮炎的风险。
关键点
• DosiKit 是一种新的外部照射生物剂量测定仪,基于照射剂量与毛囊中辐射诱导的 H2AX 蛋白磷酸化之间的剂量依赖性关系。
• DosiKit 在 95 名接受神经放射学介入治疗的患者中进行了测试。
• DosiKit 免疫测定的阈值灵敏度约为 700 mGy,DosiKit 为绘制实际吸收剂量提供了一种有用的方法。
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