Medical Journal of Dr. D.Y. Patil Vidyapeeth (Oct 2024)
Construction of In vitro Dose-response Curve for Human Peripheral Blood Exposed to High-energy Clinical 6 MV X-rays
Abstract
Introduction High-energy LINAC X-rays are used instead of the traditional modality (γ-rays) in cancer radiotherapy. Health professionals may be exposed to these high-energy X-rays owing to mishandling or mechanical failure, and using a low-energy X-rays calibration curve may not yield a meaningful dose estimate. This study aimed to obtain a dose calibration curve by scoring dicentric chromosomes (DC) in peripheral blood cells exposed to a high-energy clinical 6 MV X-ray in vitro. Materials and Methods The peripheral blood samples from healthy donors (n = 2) were irradiated with 6 MV energy (5.78 Gy/min) of X-ray and induced biological damage was quantified as DC formation, as it is considered the gold standard biodosimetry. Results Compared to the unexposed sample, the observed DC frequency in the X-irradiated samples reveals a significant (P 0.05) difference in DC analysis for intrascorer variances. The dose-response curve was fitted with a linear-quadratic fit. Conclusion The established dose-response curve generated (c = 0.0007 ± 0.001, αD = 0.035 ± 0.013, βD2 = 0.045 ± 0.005) for peripheral blood subjected to high energy clinical 6 MV X-irradiation could be used for biological dosimetry readily.
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