| Literature DB >> 33854097 |
Anna Giovanetti1, Raffaella Marconi2, Noha Awad3, Hala Abuzied4, Neveen Agamy5, Mohamed Barakat4, Cecilia Bartoleschi6, Gianluca Bossi7, Marco Canfora8, Amr A Elsaid9, Laura Ioannilli10, Horeya M Ismail4, Yasmine Amr Issa11, Flavia Novelli6, Maria Chiara Pardini6, Claudio Pioli6, Paola Pinnarò12, Giuseppe Sanguineti12, Mohamed M Tahoun3, Riccardo Turchi10, Lidia Strigari13.
Abstract
A radiological or nuclear attack could involve such a large number of subjects as to overwhelm the emergency facilities in charge. Resources should therefore be focused on those subjects needing immediate medical attention and care. In such a scenario, for the triage management by first responders, it is necessary to count on efficient biological dosimetry tools capable of early detection of the absorbed dose. At present the validated assays for measuring the absorbed dose are dicentric chromosomes and micronuclei counts, which require more than 2-3 days to obtain results. To overcome this limitation the NATO SPS Programme funded an Italian-Egyptian collaborative project aimed at validating a fast, accurate and feasible tool for assessing the absorbed dose early after radiation exposure. Biomarkers as complete blood cell counts, DNA breaks and radio-inducible proteins were investigated on blood samples collected before and 3 h after the first fraction of radiotherapy in patients treated in specific target areas with doses/fraction of about: 2, 3.5 or > 5 Gy and compared with the reference micronuclei count. Based on univariate and multivariate multiple linear regression correlation, our results identify five early biomarkers potentially useful for detecting the extent of the absorbed dose 3 h after the exposure.Entities:
Year: 2021 PMID: 33854097 PMCID: PMC8047015 DOI: 10.1038/s41598-021-87173-3
Source DB: PubMed Journal: Sci Rep ISSN: 2045-2322 Impact factor: 4.379