Immunologically effective dose: a practical model for immuno-radiotherapy
Autor: | Dominique Barbolosi, Xavier Muracciole, Raphaël Serre, Fabrice Barlesi |
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Rok vydání: | 2018 |
Předmět: |
0301 basic medicine
Oncology medicine.medical_specialty medicine.medical_treatment Effective dose (radiation) 03 medical and health sciences 0302 clinical medicine Internal medicine medicine Low dose rate fractionation radiotherapy combination business.industry Immunogenicity Immunotherapy Preclinical data Immune checkpoint Radiation therapy 030104 developmental biology linear-quadratic model 030220 oncology & carcinogenesis Concomitant immunotherapy business Research Paper |
Zdroj: | Oncotarget |
ISSN: | 1949-2553 |
Popis: | // Raphael Serre 1 , Fabrice Barlesi 2 , Xavier Muracciole 3 and Dominique Barbolosi 1 1 Simulation & Modelling Adaptive Response for Therapeutics in Cancer (SMARTc), Center for Research on Cancer of Marseille, CRCM Inserm UMR1068, CNRS UMR7258, Aix Marseille Universite U105, Institut Paoli Calmettes, Marseille, France 2 Multidisciplinary Oncology & Therapeutic Innovations Department, Assistance Publique-Hopitaux Marseille, Marseille, France 3 Department of Radiotherapy, Oncology, CHU La Timone, Assistance Publique-Hopitaux de Marseille, Marseille, France Correspondence to: Raphael Serre, email: raphael.serre@inserm.fr Keywords: immunotherapy; radiotherapy; combination; fractionation; linear-quadratic model Received: May 02, 2018 Accepted: June 19, 2018 Published: August 07, 2018 ABSTRACT Objectives: Concomitant radiotherapy with immune checkpoint blockade could be synergistic. Out-of-field effects could improve survival by slowing or blocking metastatic spreading. However, not much is known about the optimal size per fraction and inter-fraction time in that new context. Methods: The new concept of Immunologically Effective Dose (IED) is proposed: it models an intrinsic immunogenicity of radiotherapy schedules, i.e. the fraction of immunogenicity that results from the choice of the dosing regimen. The IED is defined as the single dose, given in infinitely low dose rate, that produces the same amount of abscopal response as the radiation schedule being considered. The IED uses the classic parameters of the BED formula and adds two parameters for immunogenicity that describe the local availability of immune effectors within the tumor micro-environment. Fundamentally, the IED adds a time dimension in the BED formula and describes an intrinsic immunogenicity level for radiotherapy. Results: The IED is positively related to the intensity of the out-of-field, radiotherapy-mediated, immune effects described in some preclinical data. Examples of numerical simulations are given for various schedules. A web-based calculator is freely available. Conclusions: Out-of-field effects of radiotherapy with immune checkpoint blockers might be better predicted and eventually, radiotherapy schedules with better local and systemic immunogenicity could be proposed. Advances in knowledge: A model for the intrinsic level of immunogenicity of radiotherapy schedules, referred to as the Immunologically Effective Dose (IED), that is independent of the type of immunotherapy. |
Databáze: | OpenAIRE |
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