Range uncertainties in proton therapy and the role of Monte Carlo simulations

Paganetti, Harald

doi:10.1088/0031-9155/57/11/r99

reviewPhysics in Medicine and BiologyMay 9, 2012Closed access

Range uncertainties in proton therapy and the role of Monte Carlo simulations

HPHarald Paganetti

Massachusetts General Hospital · Harvard University

PubMed

Indexed incrossrefpubmed

Abstract

The main advantages of proton therapy are the reduced total energy deposited in the patient as compared to photon techniques and the finite range of the proton beam. The latter adds an additional degree of freedom to treatment planning. The range in tissue is associated with considerable uncertainties caused by imaging, patient setup, beam delivery and dose calculation. Reducing the uncertainties would allow a reduction of the treatment volume and thus allow a better utilization of the advantages of protons. This paper summarizes the role of Monte Carlo simulations when aiming at a reduction of range uncertainties in proton therapy. Differences in dose calculation when comparing Monte Carlo with analytical…

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Authors

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HP
Harald PaganettiCorresponding
Massachusetts General Hospital, Harvard University

Topics & keywords

Topics

Keywords

Monte Carlo method
Proton therapy
Range (aeronautics)
Proton
Computational physics
Physics
Statistical physics
Materials science

UN Sustainable Development Goals

Affordable and clean energy

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