References



Keall P J, Siebers J V, Arnfield M, Kim J O and Mohan R 2001 Monte Carlo dose calculations for dynamic IMRT treatments Phys Med Biol 46 929-941



Mohan R, Antolak J, Hendee W R 2001 Monte Carlo techniques should replace analytical methods for estimating dose distributions in radiotherapy

treatment planning Med. Phys. 28 123-126



Papanikolaou N, Mackie T R, Meger-Wells C, Gehring M and Reckwerdt P 1993 Investigation of the convolution method for polyenergetic spectra

Med. Phys. 20 1327–36



NCMG van der Voort van Zyp et al., Radiother Oncol. 2009 Jun;91(3):296-300



Hol M, MJ, van der Baan P, et al. Accuracy of the Monte Carlo Dose Calculation Algorithm for Cyberknife Treatment of Small Lung Lesions [abstract].

Med Phys 2008;35:2953



T. Knoos, E. Wieslander, L. Cozzi, C. Brink, A. Fogliata, D. Albers, H.Nystrom, and S. Lassen, “Comparison of dose calculation algorithms for treatment

planning in external photon beam therapy for clinical situations,” Phys. Med. Biol. 51(22), 5785–5807 (2006).



T. Nielsen et al. Influence of dose calculation algorithms on the predicted dose distributions and NTCP values for NSCLC patients Med. Phys. 38 (5),

May 2011



Vassiliev ON, Wareing TA, McGhee J, Failla G, Salehpour MR, Mourtada F. Validation of a new grid-based Boltzmann equation solver for dose

calculation in radiotherapy with photon beams. Phys Med Biol. 2010 Feb 7;55(3):581-98.