Establishment of in vitro 192Ir γ-ray dose-response relationship for dose assessment by the lymphocyte dicentric assay

[1] Bauchinger M (1983). Microdosimetric aspects of the induction of chromosome aberrations. In: Ishihara T and Sasaki MS (eds) Radiation induced chromosome damage in man. New York: Alan R Liss, Inc, 1-22Search in Google Scholar

[2] Bender MA and Gooch PC (1962). Persistent chromosome aberrations in irradiated human subjects. Radiat Res, 16, 44-53.10.2307/3571128Search in Google Scholar

[3] Bilski P (2001). Dosimetric properties of an LiF:Mg,Cu,P thermoluminofor. Ph.D. thesis, Krakow, IFJ.Search in Google Scholar

[4] Deperas J, Szłuińska M, Deperas-Kamińska M, Edwards A, Lloyd D, Lindholm C, Romm H, Roy L, Moss R, Morand J, Wojcik A (2007). CABAS - a freely available PC program for fitting calibration curves in chromosome aberration dosimetry. Radiat Prot Dosim, 124, 115-123.10.1093/rpd/ncm13718073230Search in Google Scholar

[5] Edwards AA, Lloyd DC and Purrott RC (1979). Radiation-induced chromosome aberrations and the Poisson distribution. Radiat Environ Biophys,16, 89-100.Search in Google Scholar

[6] IAEA. (1986). Biological dosimetry: Chromosomal aberration analysis for dose assessment. Technical Reports 260. (Vienna: International Atomic Energy Agency).Search in Google Scholar

[7] IAEA. (2001). Cytogenetic analysis for radiation dose assessment. A Manual. Technical Report 405. (Vienna: International Atomic Energy Agency).Search in Google Scholar

[8] ICRU. (1980). Linear Energy Transfer. Report 6. Washington DC. International Commission on Radiological Units.Search in Google Scholar

[9] Kellerer AM and Rossi HH (1972). The theory of dual radiation action. Curr Top Radiat Res Q, 8, 85-158.Search in Google Scholar

[10]Papworth DG (1975). Curve fitting by maximum likelihood. Appendix to paper by JRK Savage, Radiation induced chromosomal aberrations in the plant Trasdescantia. Dose-response curves. Radiat. Botanic, 15, 87.Search in Google Scholar

[11]Savage JRK and Papworth DG. (2000). Constructing a 2B calibration curve for retrospective dose reconstruction. Radiat. Prot. Dosim, 88, 69-76.10.1093/oxfordjournals.rpd.a033022Search in Google Scholar

[12]Sevan’kaev AV, Lloyd DC, Edwards AA, Moquet JE, Nugis VYu, Mikhailova GM, Potetnaya OI, Khvostunov IK, Guskova AK, Baranow AE and Nadejina NM (2002). Cytogenic investigations of serious overexposure to industrial gamma radiography source. Radiat. Prot. Dosim, 102, 201-206.10.1093/oxfordjournals.rpd.a00609012430960Search in Google Scholar

[13]Sreedevi B., Rao BS and Bhatt B. (1993). Radiation-induced chromosome aberration yields following an accidental non-uniform exposure. Radiat. Prot. Dosim, 50, 45-49.Search in Google Scholar

[14]Szłuińska M, Edwards D, Lloyd D (2007). Presenting statistical uncertainty on cytogenetic dose estimates. Radiat. Prot. Dosim, 123, 443-449.10.1093/rpd/ncl52517185314Search in Google Scholar