Absolute dose reconstruction in proton therapy using PET imaging modality: feasibility study
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J Fan | I Veltchev | E Fourkal | I. Veltchev | E. Fourkal | J. Fan
[1] Mitsuyuki Abe,et al. Usefulness of positron-emission tomographic images after proton therapy. , 2002, International journal of radiation oncology, biology, physics.
[2] Proton therapy in combination with PET as monitor: a feasibility study , 1992 .
[3] Katia Parodi,et al. In-beam PET measurements of β+ radioactivity induced by proton beams , 2002 .
[4] Koji Murakami,et al. Distributions of beta+ decayed nuclei generated in the CH2 and H2O targets by the target nuclear fragment reaction using therapeutic MONO and SOBP proton beam. , 2005, Medical physics.
[5] British Columbia.. Proton dose monitoring with PET: quantitative studies in Lucite , 1996 .
[6] W. Kalender,et al. Correlation between CT numbers and tissue parameters needed for Monte Carlo simulations of clinical dose distributions , 2000 .
[7] Joseph F. Janni,et al. Energy loss, range, path length, time-of-flight, straggling, multiple scattering, and nuclear interaction probability , 1982 .
[8] W Schlegel,et al. An analytical approximation of depth-dose distributions for therapeutic proton beams. , 1996, Physics in medicine and biology.
[9] A. Cichocki,et al. Neural networks for solving systems of linear equations and related problems , 1992 .
[10] J. Debus,et al. The application of PET to quality assurance of heavy-ion tumor therapy , 1999, Strahlentherapie und Onkologie.
[11] T. Pawlicki,et al. Derivation of electron and photon energy spectra from electron beam central axis depth dose curves. , 2001, Physics in medicine and biology.
[12] Reinhard W. Schulte,et al. Nuclear Data for Neutron and Proton Radiotherapy and for Radiation Protection , 2001 .
[13] T Bortfeld,et al. An analytical approximation of the Bragg curve for therapeutic proton beams. , 1997, Medical physics.
[14] C. Ma,et al. Energy optimization procedure for treatment planning with laser-accelerated protons. , 2007, Medical physics.
[15] André Wambersie,et al. The International Commission on Radiation Units and Measurements , 2001, Journal of the ICRU.
[16] S Derreumaux,et al. Is it possible to verify directly a proton-treatment plan using positron emission tomography? , 1993, Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology.
[17] Joao Seco,et al. Effects of Hounsfield number conversion on CT based proton Monte Carlo dose calculations. , 2007, Medical physics.
[18] K Parodi,et al. In-beam PET measurements of beta+ radioactivity induced by proton beams. , 2002, Physics in medicine and biology.
[19] P. Vaska,et al. FEASIBILITY OF POSITRON EMISSION TOMOGRAPHY OF DOSE DISTRIBUTION IN PROTON BEAM CANCER THERAPY. , 2002 .
[20] H Paganetti,et al. Quantitative assessment of the physical potential of proton beam range verification with PET/CT , 2008, Physics in medicine and biology.
[21] Katia Parodi,et al. PET/CT imaging for treatment verification after proton therapy: a study with plastic phantoms and metallic implants. , 2007, Medical physics.