PURPOSE: Particle therapy has potentially a better therapeutic ratio than photon therapy. However, investment costs are much higher. This study provides an estimation and comparison of the costs of these therapies. METHODS: Within an extensive analytical framework capital and operational costs, cost per fraction, and four tumor specific treatment costs are calculated for three facilities: combined carbon-ion/proton, proton-only, and photon. RESULTS: Capital costs for the combined, proton-only and photon facilities are: euro 138.6 million, euro 94.9 million, euro 23.4 million. Total costs per year are: euro 36.7 million, euro 24.9 million, euro 9.6 million. Cost per fraction is: euro 1128 (euro 877-1974), euro 743 (euro 578-1300), euro 233 (euro 190-407). Cost ratio particle/photon therapy is 4.8 for the combined and 3.2 for the proton-only facility. Particle treatment costs vary from euro 10,030 (c-ion: lung cancer) to euro 39,610 (proton: head & neck tumors). Cost difference between particle and photon therapies is relatively small for lung and prostate cancer, larger for skull-base chordoma and head & neck tumors. CONCLUSION: Investment costs are highest for the combined carbon-ion/proton facility and lowest for the photon facility. Cost differences become smaller when total costs per year and specific treatment costs are compared. Lower fractionation schedule of particle therapy might further reduce its costs. Copyright 2009 Elsevier Ireland Ltd. All rights reserved.
PURPOSE: Particle therapy has potentially a better therapeutic ratio than photon therapy. However, investment costs are much higher. This study provides an estimation and comparison of the costs of these therapies. METHODS: Within an extensive analytical framework capital and operational costs, cost per fraction, and four tumor specific treatment costs are calculated for three facilities: combined carbon-ion/proton, proton-only, and photon. RESULTS: Capital costs for the combined, proton-only and photon facilities are: euro 138.6 million, euro 94.9 million, euro 23.4 million. Total costs per year are: euro 36.7 million, euro 24.9 million, euro 9.6 million. Cost per fraction is: euro 1128 (euro 877-1974), euro 743 (euro 578-1300), euro 233 (euro 190-407). Cost ratio particle/photon therapy is 4.8 for the combined and 3.2 for the proton-only facility. Particle treatment costs vary from euro 10,030 (c-ion: lung cancer) to euro 39,610 (proton: head & neck tumors). Cost difference between particle and photon therapies is relatively small for lung and prostate cancer, larger for skull-base chordoma and head & neck tumors. CONCLUSION: Investment costs are highest for the combined carbon-ion/proton facility and lowest for the photon facility. Cost differences become smaller when total costs per year and specific treatment costs are compared. Lower fractionation schedule of particle therapy might further reduce its costs. Copyright 2009 Elsevier Ireland Ltd. All rights reserved.
Authors: Janneke P C Grutters; Keith R Abrams; Dirk de Ruysscher; Madelon Pijls-Johannesma; Hans J M Peters; Eric Beutner; Philippe Lambin; Manuela A Joore Journal: Oncologist Date: 2011-12-06
Authors: Y Demizu; O Fujii; K Terashima; M Mima; N Hashimoto; Y Niwa; T Akagi; T Daimon; M Murakami; N Fuwa Journal: Strahlenther Onkol Date: 2013-12-22 Impact factor: 3.621
Authors: Thomas J Pugh; Seungtaek Choi; Graciela M Nogueras-Gonzalaez; Quyhn Nhu Nguyen; Usama Mahmood; Steven J Frank; Benson Mathai; X Ron Zhu; Narayan Sahoo; Michael Gillin; Deborah A Kuban; Karen E Hoffman; Sean E McGuire; Andrew K Lee Journal: Int J Part Ther Date: 2016-08-29