TY - CHAP
T1 - Clinical Radiobiology for Radiation Oncology
AU - Sminia, Peter
AU - Guipaud, Olivier
AU - Viktorsson, Kristina
AU - Ahire, Vidhula
AU - Baatout, Sarah
AU - Boterberg, Tom
AU - Cizkova, Jana
AU - Dostál, Marek
AU - Fernandez-Palomo, Cristian
AU - Filipova, Alzbeta
AU - François, Agnès
AU - Geiger, Mallia
AU - Hunter, Alistairl
AU - Jassim, Hussam
AU - Edin, Nina Frederike Jeppesen
AU - Jordan, Karl
AU - Koniarová, Irena
AU - Selvaraj, Vinodh Kumar
AU - Meade, Aidan D.
AU - Milliat, Fabien
AU - Montoro, Alegría
AU - Politis, Constantinus
AU - Savu, Diana
AU - Sémont, Alexandra
AU - Tichy, Ales
AU - Válek, Vlastimil
AU - Vogin, Guillaume
N1 - Publisher Copyright:
© The Editor(s) (if applicable) and The Author(s) 2023.
PY - 2023/1/1
Y1 - 2023/1/1
N2 - This chapter is focused on radiobiological aspects at the molecular, cellular, and tissue level which are relevant for the clinical use of ionizing radiation (IR) in cancer therapy. For radiation oncology, it is critical to find a balance, i.e., the therapeutic window, between the probability of tumor control and the probability of side effects caused by radiation injury to the healthy tissues and organs. An overview is given about modern precision radiotherapy (RT) techniques, which allow optimal sparing of healthy tissues. Biological factors determining the width of the therapeutic window are explained. The role of the six typical radiobiological phenomena determining the response of both malignant and normal tissues in the clinic, the 6R’s, which are Reoxygenation, Redistribution, Repopulation, Repair, Radiosensitivity, and Reactivation of the immune system, is discussed. Information is provided on tumor characteristics, for example, tumor type, growth kinetics, hypoxia, aberrant molecular signaling pathways, cancer stem cells and their impact on the response to RT. The role of the tumor microenvironment and microbiota is described and the effects of radiation on the immune system including the abscopal effect phenomenon are outlined. A summary is given on tumor diagnosis, response prediction via biomarkers, genetics, and radiomics, and ways to selectively enhance the RT response in tumors. Furthermore, we describe acute and late normal tissue reactions following exposure to radiation: cellular aspects, tissue kinetics, latency periods, permanent or transient injury, and histopathology. Details are also given on the differential effect on tumor and late responding healthy tissues following fractionated and low dose rate irradiation as well as the effect of whole-body exposure.
AB - This chapter is focused on radiobiological aspects at the molecular, cellular, and tissue level which are relevant for the clinical use of ionizing radiation (IR) in cancer therapy. For radiation oncology, it is critical to find a balance, i.e., the therapeutic window, between the probability of tumor control and the probability of side effects caused by radiation injury to the healthy tissues and organs. An overview is given about modern precision radiotherapy (RT) techniques, which allow optimal sparing of healthy tissues. Biological factors determining the width of the therapeutic window are explained. The role of the six typical radiobiological phenomena determining the response of both malignant and normal tissues in the clinic, the 6R’s, which are Reoxygenation, Redistribution, Repopulation, Repair, Radiosensitivity, and Reactivation of the immune system, is discussed. Information is provided on tumor characteristics, for example, tumor type, growth kinetics, hypoxia, aberrant molecular signaling pathways, cancer stem cells and their impact on the response to RT. The role of the tumor microenvironment and microbiota is described and the effects of radiation on the immune system including the abscopal effect phenomenon are outlined. A summary is given on tumor diagnosis, response prediction via biomarkers, genetics, and radiomics, and ways to selectively enhance the RT response in tumors. Furthermore, we describe acute and late normal tissue reactions following exposure to radiation: cellular aspects, tissue kinetics, latency periods, permanent or transient injury, and histopathology. Details are also given on the differential effect on tumor and late responding healthy tissues following fractionated and low dose rate irradiation as well as the effect of whole-body exposure.
KW - Hypoxia
KW - Normal tissue complication probability
KW - Radiation-induced toxicity
KW - Radioresistance
KW - Tumor control probability
KW - Tumor microenvironment
UR - http://www.scopus.com/inward/record.url?scp=85195768362&partnerID=8YFLogxK
U2 - 10.1007/978-3-031-18810-7_5
DO - 10.1007/978-3-031-18810-7_5
M3 - Chapter
AN - SCOPUS:85195768362
SN - 9783031188091
SP - 237
EP - 309
BT - Radiobiology Textbook
PB - Springer International Publishing
ER -