TY - JOUR A1 - Lusiyanti, Yanti A1 - Syaifudin, Mukh A1 - Budiantari, Tuti A1 - Purnami, Sofiati A1 - Ramadhani, Dwi T1 - Development of dose-response calibration curve for dicentric chromosome induced by X-rays Y1 - 2019/1/1 JF - Genome Integrity JO - Genome Integr SP - 2 EP - 2 VL - 10 IS - 1 UR - https://www.genome-integrity.org/article.asp?issn=2041-9414;year=2019;volume=10;issue=1;spage=2;epage=2;aulast=Lusiyanti DO - 10.4103/genint.genint_1_19 N2 - Chromosome aberration is a biomarker that has been used as a standard tool in biological dosimetry (biodosimetry) of individuals after exposure to ionizing radiation. It is based mainly on the induction of dicentric chromosomes – one of the radiation-induced biological effects, in order to correlate them with radiation dose. In this study, a dose calibration curve for X-rays was generated by using the dicentric assay and by fitting the data to both Chromosomal Aberration Calculation Software and Dose Estimate programs to compare the output of each method. Peripheral blood samples from four nonsmoker healthy donors were irradiated with various doses ranging from 0 to 4 Gy with 250 kV or 122 keV X-rays at a dose rate of 0.17 Gy/min. The irradiated blood was cultured, harvested, and analyzed according to the standard procedure as described by the International Atomic Energy Agency with slight modifications. The dose-response calibration data for dicentrics were fitted with the linear-quadratic model (Ydic = 0.03987D2 + 0.00651D). The dose-response calibration curve obtained in this research was comparable to other estimations with similar radiation quality and dose rates. The results in this research convinced us in sustaining a biodosimetry using a dose-response calibration curve in our laboratory. ER -