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- Title
Comparison of Isolated Lymphocyte and Whole Blood-Based CBMN Assays for Radiation Triage.
- Authors
Bertucci, Antonella; Wilkins, Ruth C.; Lachapelle, Sylvie; Turner, Helen C.; Brenner, David J.; Garty, Guy
- Abstract
Following a mass-casualty nuclear/radiological event, there will be an important need for rapid and accurate estimation of absorbed dose for biological triage. The cytokinesis-block micronucleus (CBMN) assay is an established and validated cytogenetic biomarker used to assess DNA damage in irradiated peripheral blood lymphocytes. Here, we describe an intercomparison experiment between two biodosimetry laboratories, located at Columbia University (CU) and Health Canada (HC) that performed different variants of the human blood CBMN assay to reconstruct dose in human blood, with CU performing the assay on isolated lymphocytes and using semi-automated scoring whereas HC used the more conventional whole blood assay. Although the micronucleus yields varied significantly between the two assays, the predicted doses closely matched up to 4 Gy – the range from which the HC calibration curve was previously established. These results highlight the importance of a robust calibration curve(s) across a wide age range of donors that match the exposure scenario as closely as possible and that will account for differences in methodology between laboratories. We have seen that at low doses, variability in the results may be attributed to variation in the processing while at higher doses the variation is dominated by inter-individual variation in cell proliferation. This interlaboratory collaboration further highlights the usefulness of the CBMN endpoint to accurately reconstruct absorbed dose in human blood after ionizing radiation exposure.
- Subjects
COLUMBIA University; LYMPHOCYTES; ABSORBED dose; MEDICAL triage; IONIZING radiation; NUCLEOLUS; DOSE-response relationship (Radiation)
- Publication
Cytogenetic & Genome Research, 2024, Vol 163, Issue 3/4, p110
- ISSN
1424-8581
- Publication type
Article
- DOI
10.1159/000533488