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Original Articles

Monte Carlo-based calculation of nano-scale dose enhancement factor and relative biological effectiveness in using different nanoparticles as a radiosensitizer

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Pages 1289-1298 | Received 21 Jan 2021, Accepted 12 May 2021, Published online: 09 Jun 2021
 

Abstract

Introduction

Nowadays, some nanoparticles (NPs) are known and used as radiosensitizers in radiotherapy and radiobiology, due to their desired biological, physical, and chemical effects on cells. This study aimed to evaluate and compare the dose enhancement factor (DEF) and the biological effectiveness of some common NPs through EGSnrc and MCDS Monte Carlo (MC) simulation codes.

Materials and methods

To evaluate considered NPs’ DEF, a single NP with 50 nm diameter was simulated at the center of concentric spheres. NP irradiations were done with 30, 60, and 100 keV photon energies. The secondary electron spectra were scored at the surface of considered NPs, and the dose values were scored at surrounding water-filled spherical shells which were distributed up to 4000 nm from the NP surface. The electron spectra were used in the MCDS code to obtain different initial DNA damages for the calculation of enhanced relative biological effectiveness (eRBE).

Results

By decreasing the photon energy, an increment of DEF was seen for all studied NPs. The maximum DEF at 30, 60, and 100 keV photon energies were respectively related to silver (Ag), gadolinium (Gd), and bismuth (Bi) NPs. The maximum double-strand break (DSB) related (eRBEDSB) values for the 30 keV photon belonged to Ag, while BiNPs showed the maximum values at other photon energies. The minimum eRBEDSB values were also related to iron (Fe) NPs at the entire range of studied photon energies.

Conclusions

The compared nanoscale physical and biological results of our study can be helpful in the selection of optimum NP as a radiosensitizer in future radiobiological studies. Bi, gold (Au), Ag, and platinum (Pt) NPs had great potential, respectively, as radiosensitizers relative to the other studied NPs.

Disclosure statement

The authors report no conflict of interest.

Additional information

Notes on contributors

Mostafa Robatjazi

Mostafa Robatjazi, Ph.D., is an Assistant Professor and Medical Physicist at the Department of Medical Physics and Radiological Sciences, Sabzevar University of Medical Sciences, Sabzevar, Iran.

Hamid Reza Baghani

Hamid Reza Baghani, Ph.D., is an Assistant Professor and Medical Physicist at the Department of Physics, Hakim Sabzevari University, Sabzevar, Iran.

Atefeh Rostami

Atefeh Rostami, Ph.D., is an Assistant Professor and Medical Physicist at the Department of Medical Physics and Radiological Sciences, Sabzevar University of Medical Sciences, Sabzevar, Iran.

Ali Pashazadeh

Ali Pashazadeh, Ph.D., has Postdoctoral fellowship in medical imaging at Institute for Medical Technology, Otto von Guericke University, Magdeburg, Germany.

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