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Journal Article

Citation

Balajee AS, Escalona M, Iddins CJ, Shuryak I, Livingston GK, Hanlon D, Dainiak N. Appl. Radiat. Isot. 2018; 144: 111-117.

Affiliation

Department of Therapeutic Radiology, Yale University School of Medicine, New Haven, CT, USA.

Copyright

(Copyright © 2018, Elsevier Publishing)

DOI

10.1016/j.apradiso.2018.12.005

PMID

30572199

Abstract

Dicentric chromosome assay (DCA) is most frequently used for estimating the absorbed radiation dose in the peripheral blood lymphocytes of humans after occupational or incidental radiation exposure. DCA is considered to be the "gold standard" for estimating the absorbed radiation dose because the dicentric chromosome formation is fairly specific to ionizing radiation exposure and its baseline frequency is extremely low in non-exposed humans. However, performance of DCA for biodosimetry is labor intensive and time-consuming making its application impractical for radiological/nuclear mass casualty incidents. Realizing the critical need for rapid dose estimation particularly after radiological/nuclear disaster events, several laboratories have initiated efforts to automate some of the procedural steps involved in DCA. Although metaphase image capture and dicentric chromosome analysis have been automated using commercially available platforms, lack or an insufficient number of these platforms may pose a serious bottleneck when hundreds and thousands of samples need to be analyzed for rapid dose estimation. To circumvent this problem, a web-based approach for telescoring was initiated by our laboratory, which enabled the cytogeneticists around the globe to analyze and score digital images. To further increase the surge capacity of dicentric scorers, we recently initiated a dicentric training and scoring exercise involving a total of 50 volunteers at all academic levels without any prerequisite for experience in radiation cytogenetics. Out of the 50 volunteers enrolled thus far, only one outlier was found who overestimated the absorbed radiation dose. Our approach of training the civilians in dicentric chromosome analysis holds great promise for increasing the surge capacity of dicentric chromosome scorers for a rapid biodosimetry in the case of mass casualty scenarios.

Copyright © 2018 Elsevier Ltd. All rights reserved.


Language: en

Keywords

Dicentric chromosome assay; Ionizing radiation; Lymphocyte culture; Radiation dose assessment; Radiological triage; Radiological/nuclear mass casualty incidents

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