Particle Beam Radiobiology Status and Challenges: A PTCOG Radiobiology Subcommittee Report

Reem Ahmad; Amelia Barcellini; Kilian Baumann; Malte Benje; Tamara Bender; Paloma Bragado; Alexandra Charalampopoulou; Reema Chowdhury; Anthony J. Davis; Daniel K. Ebner; John Eley; Jake A. Kloeber; Robert W. Mutter; Thomas Friedrich; Alvaro Gutierrez-Uzquiza; Alexander Helm; Marta Ibáñez-Moragues; Lorea Iturri; Jeannette Jansen; Miguel Ángel Morcillo; Daniel Puerta; Anggraeini Puspitasari Kokko; Daniel Sánchez-Parcerisa; Emanuele Scifoni; Takashi Shimokawa; Olga Sokol; Michael D Story; Juliette Thariat; Walter Tinganelli; Francesco Tommasino; Charlot Vandevoorde; Cläre von Neubeck

doi:10.1016/j.ijpt.2024.100626

Particle Beam Radiobiology Status and Challenges: A PTCOG Radiobiology Subcommittee Report

Reem Ahmad, Amelia Barcellini, Kilian Baumann, Malte Benje, Tamara Bender, Paloma Bragado, Alexandra Charalampopoulou, Reema Chowdhury, Anthony J. Davis, Daniel K. Ebner, John Eley, Jake A. Kloeber, Robert W. Mutter, Thomas Friedrich, Alvaro Gutierrez-Uzquiza, Alexander Helm, Marta Ibáñez-Moragues, Lorea Iturri, Jeannette Jansen, Miguel Ángel MorcilloDaniel Puerta, Anggraeini Puspitasari Kokko, Daniel Sánchez-Parcerisa, Emanuele Scifoni, Takashi Shimokawa, Olga Sokol, Michael D Story, Juliette Thariat, Walter Tinganelli, Francesco Tommasino, Charlot Vandevoorde, Cläre von Neubeck

Research output: Contribution to journal › Review article › peer-review

4 Scopus citations

Abstract

Particle therapy (PT) represents a significant advancement in cancer treatment, precisely targeting tumor cells while sparing surrounding healthy tissues thanks to the unique depth-dose profiles of the charged particles. Furthermore, their linear energy transfer and relative biological effectiveness enhance their capability to treat radioresistant tumors, including hypoxic ones. Over the years, extensive research has paved the way for PT's clinical application, and current efforts aim to refine its efficacy and precision, minimizing the toxicities. In this regard, radiobiology research is evolving toward integrating biotechnology to advance drug discovery and radiation therapy optimization. This shift from basic radiobiology to understanding the molecular mechanisms of PT aims to expand the therapeutic window through innovative dose delivery regimens and combined therapy approaches. This review, written by over 30 contributors from various countries, provides a comprehensive look at key research areas and new developments in PT radiobiology, emphasizing the innovations and techniques transforming the field, ranging from the radiobiology of new irradiation modalities to multimodal radiation therapy and modeling efforts. We highlight both advancements and knowledge gaps, with the aim of improving the understanding and application of PT in oncology.

Original language	English (US)
Article number	100626
Journal	International Journal of Particle Therapy
Volume	13
DOIs	https://doi.org/10.1016/j.ijpt.2024.100626
State	Published - Sep 2024

Keywords

Bragg peak
Particle therapy
Radiobiology

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics
Radiology Nuclear Medicine and imaging

Access to Document

10.1016/j.ijpt.2024.100626

Cite this

Ahmad, R., Barcellini, A., Baumann, K., Benje, M., Bender, T., Bragado, P., Charalampopoulou, A., Chowdhury, R., Davis, A. J., Ebner, D. K., Eley, J., Kloeber, J. A., Mutter, R. W., Friedrich, T., Gutierrez-Uzquiza, A., Helm, A., Ibáñez-Moragues, M., Iturri, L., Jansen, J., ... von Neubeck, C. (2024). Particle Beam Radiobiology Status and Challenges: A PTCOG Radiobiology Subcommittee Report. International Journal of Particle Therapy, 13, Article 100626. https://doi.org/10.1016/j.ijpt.2024.100626

Ahmad, R, Barcellini, A, Baumann, K, Benje, M, Bender, T, Bragado, P, Charalampopoulou, A, Chowdhury, R, Davis, AJ, Ebner, DK, Eley, J, Kloeber, JA, Mutter, RW, Friedrich, T, Gutierrez-Uzquiza, A, Helm, A, Ibáñez-Moragues, M, Iturri, L, Jansen, J, Morcillo, MÁ, Puerta, D, Kokko, AP, Sánchez-Parcerisa, D, Scifoni, E, Shimokawa, T, Sokol, O, Story, MD, Thariat, J, Tinganelli, W, Tommasino, F, Vandevoorde, C & von Neubeck, C 2024, 'Particle Beam Radiobiology Status and Challenges: A PTCOG Radiobiology Subcommittee Report', International Journal of Particle Therapy, vol. 13, 100626. https://doi.org/10.1016/j.ijpt.2024.100626

@article{89766d36aaff4888aa8a7f7b97634eff,

title = "Particle Beam Radiobiology Status and Challenges: A PTCOG Radiobiology Subcommittee Report",

abstract = "Particle therapy (PT) represents a significant advancement in cancer treatment, precisely targeting tumor cells while sparing surrounding healthy tissues thanks to the unique depth-dose profiles of the charged particles. Furthermore, their linear energy transfer and relative biological effectiveness enhance their capability to treat radioresistant tumors, including hypoxic ones. Over the years, extensive research has paved the way for PT's clinical application, and current efforts aim to refine its efficacy and precision, minimizing the toxicities. In this regard, radiobiology research is evolving toward integrating biotechnology to advance drug discovery and radiation therapy optimization. This shift from basic radiobiology to understanding the molecular mechanisms of PT aims to expand the therapeutic window through innovative dose delivery regimens and combined therapy approaches. This review, written by over 30 contributors from various countries, provides a comprehensive look at key research areas and new developments in PT radiobiology, emphasizing the innovations and techniques transforming the field, ranging from the radiobiology of new irradiation modalities to multimodal radiation therapy and modeling efforts. We highlight both advancements and knowledge gaps, with the aim of improving the understanding and application of PT in oncology.",

keywords = "Bragg peak, Particle therapy, Radiobiology",

author = "Reem Ahmad and Amelia Barcellini and Kilian Baumann and Malte Benje and Tamara Bender and Paloma Bragado and Alexandra Charalampopoulou and Reema Chowdhury and Davis, {Anthony J.} and Ebner, {Daniel K.} and John Eley and Kloeber, {Jake A.} and Mutter, {Robert W.} and Thomas Friedrich and Alvaro Gutierrez-Uzquiza and Alexander Helm and Marta Ib{\'a}{\~n}ez-Moragues and Lorea Iturri and Jeannette Jansen and Morcillo, {Miguel {\'A}ngel} and Daniel Puerta and Kokko, {Anggraeini Puspitasari} and Daniel S{\'a}nchez-Parcerisa and Emanuele Scifoni and Takashi Shimokawa and Olga Sokol and Story, {Michael D} and Juliette Thariat and Walter Tinganelli and Francesco Tommasino and Charlot Vandevoorde and {von Neubeck}, Cl{\"a}re",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = sep,

doi = "10.1016/j.ijpt.2024.100626",

language = "English (US)",

volume = "13",

journal = "International Journal of Particle Therapy",

issn = "2331-5180",

publisher = "Elsevier B.V.",

}

TY - JOUR

T1 - Particle Beam Radiobiology Status and Challenges

T2 - A PTCOG Radiobiology Subcommittee Report

AU - Ahmad, Reem

AU - Barcellini, Amelia

AU - Baumann, Kilian

AU - Benje, Malte

AU - Bender, Tamara

AU - Bragado, Paloma

AU - Charalampopoulou, Alexandra

AU - Chowdhury, Reema

AU - Davis, Anthony J.

AU - Ebner, Daniel K.

AU - Eley, John

AU - Kloeber, Jake A.

AU - Mutter, Robert W.

AU - Friedrich, Thomas

AU - Gutierrez-Uzquiza, Alvaro

AU - Helm, Alexander

AU - Ibáñez-Moragues, Marta

AU - Iturri, Lorea

AU - Jansen, Jeannette

AU - Morcillo, Miguel Ángel

AU - Puerta, Daniel

AU - Kokko, Anggraeini Puspitasari

AU - Sánchez-Parcerisa, Daniel

AU - Scifoni, Emanuele

AU - Shimokawa, Takashi

AU - Sokol, Olga

AU - Story, Michael D

AU - Thariat, Juliette

AU - Tinganelli, Walter

AU - Tommasino, Francesco

AU - Vandevoorde, Charlot

AU - von Neubeck, Cläre

PY - 2024/9

Y1 - 2024/9

N2 - Particle therapy (PT) represents a significant advancement in cancer treatment, precisely targeting tumor cells while sparing surrounding healthy tissues thanks to the unique depth-dose profiles of the charged particles. Furthermore, their linear energy transfer and relative biological effectiveness enhance their capability to treat radioresistant tumors, including hypoxic ones. Over the years, extensive research has paved the way for PT's clinical application, and current efforts aim to refine its efficacy and precision, minimizing the toxicities. In this regard, radiobiology research is evolving toward integrating biotechnology to advance drug discovery and radiation therapy optimization. This shift from basic radiobiology to understanding the molecular mechanisms of PT aims to expand the therapeutic window through innovative dose delivery regimens and combined therapy approaches. This review, written by over 30 contributors from various countries, provides a comprehensive look at key research areas and new developments in PT radiobiology, emphasizing the innovations and techniques transforming the field, ranging from the radiobiology of new irradiation modalities to multimodal radiation therapy and modeling efforts. We highlight both advancements and knowledge gaps, with the aim of improving the understanding and application of PT in oncology.

AB - Particle therapy (PT) represents a significant advancement in cancer treatment, precisely targeting tumor cells while sparing surrounding healthy tissues thanks to the unique depth-dose profiles of the charged particles. Furthermore, their linear energy transfer and relative biological effectiveness enhance their capability to treat radioresistant tumors, including hypoxic ones. Over the years, extensive research has paved the way for PT's clinical application, and current efforts aim to refine its efficacy and precision, minimizing the toxicities. In this regard, radiobiology research is evolving toward integrating biotechnology to advance drug discovery and radiation therapy optimization. This shift from basic radiobiology to understanding the molecular mechanisms of PT aims to expand the therapeutic window through innovative dose delivery regimens and combined therapy approaches. This review, written by over 30 contributors from various countries, provides a comprehensive look at key research areas and new developments in PT radiobiology, emphasizing the innovations and techniques transforming the field, ranging from the radiobiology of new irradiation modalities to multimodal radiation therapy and modeling efforts. We highlight both advancements and knowledge gaps, with the aim of improving the understanding and application of PT in oncology.

KW - Bragg peak

KW - Particle therapy

KW - Radiobiology

UR - http://www.scopus.com/inward/record.url?scp=85201774600&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85201774600&partnerID=8YFLogxK

U2 - 10.1016/j.ijpt.2024.100626

DO - 10.1016/j.ijpt.2024.100626

M3 - Review article

C2 - 39258166

AN - SCOPUS:85201774600

SN - 2331-5180

VL - 13

JO - International Journal of Particle Therapy

JF - International Journal of Particle Therapy

M1 - 100626

ER -

Particle Beam Radiobiology Status and Challenges: A PTCOG Radiobiology Subcommittee Report

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this