References
- 1. Van del Kogel, A., & Joiner, M. (2009). Basic clinical radiobiology. United Kingdom: Hodder Education.
- 2. Fenech, M., Holland, N., Chang, W. P., Zeiger, E., & Bonassi, S. (2003). HUMN project: detailed description of the scoring criteria for the cytokinesis-block micronucleus assay using isolated human lymphocyte cultures. Mutat. Res., 534, 65-75.
- 3. IAEA. (2001). Cytogenetic analysis for radiation dose assessment. A manual. Vienna: International Atomic Energy Agency. (Technical Reports Series no. 405).
- 4. Vral, A., Fenech, M., & Thierens, H. (2011). The micronucleus assay as a biological dosimeter of in vivo ionising radiation exposure. Mutagenesis, 26(1), 11-17.
- 5. Bolognesi, C., Ropolo, M., Roggieri, P., & Bruzzi, P. (2014). Biological dosimetry by the micronucleus test: A validation study for the application in radiation mass casualties. Retrieved September 14, 2014, from CSO database on the World Wide Web: https://www.cso.nato.int/pubs/rdp.asp?RDP=STOMP-HFM-223.
- 6. Thierens, H., Vral, A., Vandevoorde, C., Vandersickel, V., de Gelder, V., Romm, H., Oestreicher, U., Rothkamm, K., Barnard, S., Ainsbury, E., Sommer, S., Beinke, C., & Wojcik, A. (2014). Is a semi-automated approach indicated in the application of the automated micronucleus assay for triage purposes? Radiat. Prot. Dosim., 159(1/4), 87-94.
- 7. Bolognesi, C., Balia, C., Roggieri, P., Cardinale, F., Bruzzi, P., Sorcinelli, F., Lista, F., D’Amelio, R., & Righi, E. (2011). Micronucleus test for radiation biodosimetry in mass casualty events: Evaluation of visual and automated scoring. Radiat. Meas., 46(2), 169-175.
- 8. Franco, M., Bolognesi, C., De Amicis, A., Amati, A., Di Cristofaro, S., Regalbuto, E., Ropolo, M., Lista, F., & De Sanctis, S. (2012). Interlaboratory comparison on cytokinesis-block micronucleus assay for X-ray calibration curve and dose prediction in Italy. Effects of Ionizing Radiation Exposure and Countermeasures: Current Status and Future Perspectives S&T. In T. C. Pellmar (Ed.), Biological effects of ionizing radiation exposure and countermeasures: Current status and future perspectives (paper no. 22). NATO Science and Technology Organization. (STO-MP-HFM-223).
- 9. Martin, P. R., Berdychevski, R. E., Subramanian, U., Blakely, W. F., & Prasanna, P. G. S. (2007). Sample tracking in an automated cytogenetic Biodosimetry Laboratory for Radiation Mass Casualties. Radiat. Meas., 42(6/7), 1119-1124.
- 10. Michalec, B., Swakoń, J., Sowa, U., Ptaszkiewicz, M., Cywicka-Jakiel, T., & Olko, P. (2010). Proton radiotherapy facility for ocular tumors at the IFJ PAN in Kraków Poland. Appl. Radiat. Isot., 68, 738-742.
- 11. Fenech, M., Holland, N., Chang, W. P., Zeiger, E., & Bonassi, S. (1999). The Human MicroNucleus Project - An international collaborative study on the use of the micronucleus technique for measuring DNA damage in humans. Mutat. Res.-Fundam. Mol. Mech. Mutagen., 428(1/2), 271-283.
- 12. IAEA. (2011). Cytogenetic dosimetry applications in preparedness for and response to radiation emergencies. Vienna: International Atomic Energy Agency.
- 13. Joksic, G., Pajovic, S. B., Stankovic, M., Pejic, S., Kasapovic, J., Cuttone, G., Calonghi, N., Masotti, L., & Kanazir, D. T. (2000). Chromosome aberrations, micronuclei, and activity of superoxide dismutases in human lymphocytes after irradiation in vitro. Cell. Mol. Life Sci., 57, 842-850.
- 14. McNamee, J. P., Flegal, F. N., Greene, H. B., Marro, L., & Wilkins, R. C. (2009). Validation of the cytokinesis- -block micronucleus (CBMN) assay for use as a triage biological dosimetry tool. Radiat. Prot. Dosim., 135, 232-242.
- 15. Beinke, C., Oestreicher, U., Riecke, A., Kulka, U., Meineke, V., & Romm, H. (2011). Inter-laboratory comparison to validate the dicentric assay as a cytogenetic triage tool for medical management of radiation accidents. Radiat. Meas., 46, 929-935.
- 16. Wilkins, R. C., Romm, H., Oestreicher, U., Marro, L., Yoshida, M. A., Suto, Y., & Prasanna, P. G. (2011). Biological dosimetry by the TriageDicentric Chromosome Assay - further validation of International Networking. Radiat. Meas., 46, 923-928.
- 17. Konopacka, M., & Rogoliński, J. (2011). Clastogenic effects in human lymphocytes exposed to low and high dose rate X-ray irradiation and vitamin C. Nukleonika, 56, 253-257.
- 18. Go, Y. J., Kwon, O. D., Shin, J. H., Kim, S. H., Jeong, K. S., Ryu, S. Y., Park, S. J., Kim, C. H., Kim, T. H., Lee, M. H., Kim, E. J., Kwak, D. M., & Kang, Ch. M. (2011). Dose estimation with the calibration of dose- -response curve of micronucleus in human peripheral lymphocytes induced by 50 MeV proton beams. Iran. J. Radiat. Res. Soc., 8(4), 231-236.
- 19. Matsubara, S., Ohara, H., Hiroaka, T., Koike, S., Ando, K., Yamaguchi, H., Kuwabara, Y., Hoshina, M., & Suzuki, S. (1990). Chromosome aberration frequencies produced by a 70-MeV proton beam. Radiat. Res. Soc., 123, 182-191.
- 20. Fenech, M. (1998). Important variables that infl uence base-line micronucleus frequency in cytokinesis- -blocked lymphocytes - a biomarker for DNA damage in human populations. Mutat. Res., 404, 155-165.
- 21. Fenech, M. (2000). The in vitro micronucleus technique. Mutat. Res., 455, 81-95.
- 22. Pajic, J., Rakic, B., Jovicic, D., & Milovanovic, A. (2014). Construction of dose response calibration curves for dicentrics and micronuclei for X radiation in a Serbian population. Mutat. Res., 773, 23-28.
- 23. Pagenetti, H., Niemierko, A., Ancukiewicz, M., Gerweck, L. E., Gotein, M., Loeffl er, J. S., & Suit, H. D. (2002). Relative biological effectiveness (RBE) values for proton beam therapy. Int. J. Radiat. Oncol. Biol. Phys., 53(2), 407-421.
- 24. Girdhani, S., Sachs, R., & Hlatky, L. (2013). Biological effects of proton radiation: what we know and don’t know. Radiat. Res. Soc., 179, 257-272. Retrieved September 14, 2014 from PubMed database on the World Wide Web: http://www.pubmed.gov. PMID: 23373900.
- 25. Tamizh Selvan, G., Bhavani, M., Vijayalakshmi, J., Solomon, P. F. D., & Chaudhury, N. K. (2014). Delayed mitogenic stimulation decreases DNA damage assessed by micronucleus assay in human peripheral blood lymphocytes after 60-Co irradiation. Dose- Response, 12(3), 498-508.
- 26. Sullivan, J. M., Prasanna, P. G., Grace, M. B., Wathen, L. K., Koerner, J. F., & Coleman, C. N. (2013). Assessment of biodosimetry methods for a mass-casualty radiological incident: Medical response and management considerations. Health Phys., 105(6), 540-554. DOI: 10.1097/HP.0b013e31829cf221.
- 27. Demidenko, E., Williams, B. B., & Swartz, H. M. (2009). Radiation dose prediction using data on time to emesis in the case of nuclear terrorism. Radiat. Res., 171, 310-319.