Abstract
Objective: For efficient applications of protons in radiotherapy, detailed knowledge of the corresponding radiobiological mechanism is necessary. The inactivation cross section is a useful tool to explore the interaction mechanism. Hence, the inactivation cross section for proton irradiation on V79 cells has been calculated using published survival data. Method: The linear quadratic equation was used to fit the survival curves and the parameter α was used to calculate the cross section. The cross section σ is plotted as a function of the mean free path λ and the linear energy transfer LET. Results: The cross section σ-versus-λ curve shows a saturation region between λ≥2 nm and λ≤5 nm. In this region, the inactivation cross section value is about the same as the geometrical area of the DNA segment (≈4 μm2). Such a saturation is also seen in the σ-LET curve. Conclusion: This implies that one DNA segment is at a risk upon the traversal of a single proton.
Publication Date
12-31-2007
First Page
233
Last Page
238
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Recommended Citation
Azooz, Faika A. and Alkhalidy, Thamer J.
(2007)
"Calculation of the Inactivation Cross Section of V79 Cells by Protons in Radiotherapy,"
Sultan Qaboos University Medical Journal: Vol. 7: 233-238.
DOI: https://doi.org/10.18295/2075-0528.2673
