通过自动化细胞遗传生物剂量测定法进行辐射剂量估计。

Radiation Dose Estimation by Automated Cytogenetic Biodosimetry.

作者信息

Rogan Peter K, Li Yanxin, Wilkins Ruth C, Flegal Farrah N, Knoll Joan H M

机构信息

Department of Biochemistry, Schulich School of Medicine and Dentistry, University of Western Ontario, London, Ontario N6A 5C1, Canada

Cytognomix Inc., 60 North Centre Rd., Box 27052, London, Ontario N5X 3X5, Canada.

出版信息

Radiat Prot Dosimetry. 2016 Dec;172(1-3):207-217. doi: 10.1093/rpd/ncw161. Epub 2016 Jul 13.

DOI:10.1093/rpd/ncw161

PMID:27412514

Abstract

The dose from ionizing radiation exposure can be interpolated from a calibration curve fit to the frequency of dicentric chromosomes (DCs) at multiple doses. As DC counts are manually determined, there is an acute need for accurate, fully automated biodosimetry calibration curve generation and analysis of exposed samples. Software, the Automated Dicentric Chromosome Identifier (ADCI), is presented which detects and discriminates DCs from monocentric chromosomes, computes biodosimetry calibration curves and estimates radiation dose. Images of metaphase cells from samples, exposed at 1.4-3.4 Gy, that had been manually scored by two reference laboratories were reanalyzed with ADCI. This resulted in estimated exposures within 0.4-1.1 Gy of the physical dose. Therefore, ADCI can determine radiation dose with accuracies comparable to standard triage biodosimetry. Calibration curves were generated from metaphase images in ~10 h, and dose estimations required ~0.8 h per 500 image sample. Running multiple instances of ADCI may be an effective response to a mass casualty radiation event.

摘要

电离辐射暴露剂量可通过拟合多剂量下双着丝粒染色体（DCs）频率的校准曲线进行插值。由于DC计数是手动确定的，因此迫切需要准确、全自动的生物剂量学校准曲线生成以及对受照样本的分析。本文介绍了一种软件，即自动双着丝粒染色体识别器（ADCI），它可从单着丝粒染色体中检测和区分DCs，计算生物剂量学校准曲线并估算辐射剂量。对来自两个参考实验室手动计分的1.4 - 3.4 Gy受照样本的中期细胞图像，使用ADCI进行了重新分析。结果得到的估计暴露剂量与物理剂量相差在0.4 - 1.1 Gy以内。因此，ADCI能够以与标准分流生物剂量学相当的精度确定辐射剂量。校准曲线可在约10小时内从中期图像生成，每500个图像样本的剂量估计需要约0.8小时。运行多个ADCI实例可能是应对大规模伤亡辐射事件的有效措施。

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通过自动化细胞遗传生物剂量测定法进行辐射剂量估计。

Radiation Dose Estimation by Automated Cytogenetic Biodosimetry.

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