Do we need monte carlo treatment planning for linac based radiosurgery? a case study

Mohan, R. Why Monte Carlo? In Leavitt, D.D.; Starkschall, G.; editors. Proceedings of the 12th International Conference on The Use of Computers in Radiation Therapy. Salt Lake City, UT:Medical Physics Publishing, 1997: 16–18. Mohan, 1997, Monte Carlo dose calculations for radiation treatment planning, Med. Phys., 24, 987 Wu, 1997, Treatment planning with Monte Carlo dose calculation, Med. Phys., 24, 1023 Hartmann-Siantar, 1997, Lawrence Livermore National Laboratory’s PEREGRINE project, 19 Jiang, 1997, Monte Carlo and experimental study of the perturbation caused by inhomogeneity in radiosurgical fields, 485 Rustgi, 1997, Dose perturbation caused by high density inhomogeneities in small beams in stereotactic radiosurgery, Med. Phys., 24, 1076 Rogers, 1995, BEAM, Med. Phys., 22, 503, 10.1118/1.597552 Ayyangar, 1996, Calculation of dosimetric data for small field sizes for 6 MV x-rays using BEAM/DOSXYZ Monte Carlo codes, Med. Phys., 23, 1129 Jiang, S.B.; Ayyangar, K.M. Characteristics of radiosurgery beams from a Clinac 1800 accelerator: a Monte Carlo study: In: Leavitt, D.D.; Starkschall, G., editors, Proceedings of The 12th International Conference on The Use of Computers in Radiation Therapy. Salt Lake City, UT:Medical Physics Publishing; 1997: 86–87. Ayyangar, 1997, An investigation on the feasibility of using OMEGA Monte Carlo codes for radiosurgery treatment planning, 88