NUKLEONIKA 2012, 57(3):401-406

 


DOSE ENHANCEMENT IN BRACHYTHERAPY IN THE PRESENCE
OF GOLD NANOPARTICLES: A MONTE CARLO STUDY ON THE SIZE
OF GOLD NANOPARTICLES AND METHOD OF MODELLING



Mahdi Ghorbani1, Delaram Pakravan2, Mahdi Bakhshabadi1, Ali S. Meigooni3

1 Iranian Applied Research Center for Public Health and Sustainable Development (IRCPHD),
North Khorasan University of Medical Sciences, Bojnurd, Iran

2 Department of Physics, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran
3 Comprehensive Cancer Center of Nevada, Las Vegas, Nevada, USA


The aim of this study was to evaluate the effect of the size of gold nanoparticles (GNPs) on dose enhancement in brachytherapy with photon emitting sources. Four photon emitting sources, 125I, 169Yb, 103Pd, and 192Ir were simulated and dose rate constant and radial dose functions were compared with published corresponding data for these sources. Dose enhancement factor in the presence of gold nanoparticles of 30 mg/ml concentration was calculated separately for nanoparticles with a diameter of 50, 100 and 200 nm. Gold nanoparticles were simulated precisely as nanospheres utilizing a lattice option in the MCNPX Monte Carlo code and the results were compared with those obtained with a simple model in which gold atoms are distributed uniformly in tumor volume as a simple mixture. Among the four mentioned sources, the dose enhancement related to 125I source is higher. Our results have shown that with gold nanoparticles of higher diameter, the level of dose enhancement is higher in the tested tumor. It has been also observed that the simple model overestimates the dose enhancement factor when compared with the precise model in which nanoparticles are defined according to the Monte Carlo code. In the energy range produced by the brachytherapy sources, the dose enhancement is higher when using brachytherapy sources with lower energy. Among the size range of gold nanoparticles used in medicine, it is predicted that nanoparticles with higher diameter can be more useful when are utilized in brachytherapy. It is also recommended that when calculating dose enhancements, a precise model be used for modelling of nanoparticles in the Monte Carlo simulations.


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