Strategy for population triage based on dicentric analysis
Résumé
After large-scale accidental overexposure to ionizing radiation, a rapid triage of the exposed population can be performed by scoring dicentrics and ring chromosomes among 50 metaphases. This is rapid but is not accurate because the sensitivity is around 0.5 Gy. After the triage step, dose can be estimated by scoring 500 metaphases. This is lengthy but very accurate because the sensitivity is between 0.1 and 0.2 Gy. To improve the methodology, we propose the use of software for automatic dicentric scoring that was tested on victims of an accident in Dakar. Manual scoring of 50 metaphases was carried out, then manual scoring of 500 metaphases, and automatic scoring. Comparison between the dose classifications obtained with manual scoring on 50 metaphases and 500 metaphases showed 50 misclassification with the manual scoring on 50 metaphases. Comparison between the dose classifications obtained with the automatic scoring and manual scoring on 500 metaphases showed only 4.35 misclassification with the automatic scoring. The automatic scoring method is more accurate than the manual scoring on 50 metaphases and can therefore be used for triage, and in place of the manual scoring on 500 metaphases method for individual dose estimation, because it is as accurate and much faster. © 2009 The Radiation Research Society.
Mots clés
article
chromosome analysis
controlled study
dicentric chromosome
emergency health service
human
human cell
ionizing radiation
metaphase
metaphase chromosome
population research
priority journal
radiation dose
radiation exposure
radiosensitivity
scoring system
chromosome aberration
nuclear accident
radiation response
Chromosome Aberrations
Dose-Response Relationship
Radiation
Humans
Metaphase
Radiation Dosage
Radioactive Hazard Release
Triage