The fractionation effect on proton RBE in a late normal tissue damage model in vivo

Cathrine Bang Overgaard; Fardous Reaz; Per Poulsen; Harald Spejlborg; Jens Overgaard; Cai Grau; Niels Bassler; Brita Singers Sørensen

doi:10.1016/j.radonc.2025.110792

The fractionation effect on proton RBE in a late normal tissue damage model in vivo

Cathrine Bang Overgaard, Fardous Reaz, Per Poulsen, Harald Spejlborg, Jens Overgaard, Cai Grau, Niels Bassler, Brita Singers Sørensen

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

Abstract

BACKGROUND AND PURPOSE: A constant relative biological effectiveness (RBE) of 1.1 is used in clinical proton therapy (PT) to convert prescribed photon doses into isoeffective proton doses. However, the RBE is not constant; it is a dynamic parameter highly influenced by factors such as linear energy transfer, tissue type, biological endpoint, and dose/fraction. Preclinical in vivo proton RBE studies using fractionated doses and late damage endpoints are almost nonexistent. The aim is to test the hypotheses that the RBE varies between single and fractionated doses and that the late damage development differs between proton and photon irradiation using a 6 MV linac as a reference modality in a murine leg model.

MATERIALS AND METHODS: The right hindlimb of unanesthetized mice was irradiated with single or four fractions of protons or 6 MV photons. Over one year after treatment, the mice were analyzed every fourteenth day using a joint contracture assay to investigate severe radiation-induced late damage.

RESULTS: The results indicated a higher RBE for severe late damage endpoint of 1.25 ± 0.06 (1.13-1.36) for fractionated doses than single doses, exhibiting an RBE of 1.16 ± 0.08 (1.00-1.31). The onset of late damage is earlier for protons than photons for doses higher than 47 Gy and fractionated doses above 50 Gy (12.5 Gy per fraction).

CONCLUSION: The findings demonstrate that fractionated doses enhance the RBE for a late damage endpoint and lead to an earlier onset of severe late effects than its photon counterpart in vivo.

Original language	English
Article number	110792
Journal	Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology
Volume	206
ISSN	0167-8140
DOIs	https://doi.org/10.1016/j.radonc.2025.110792
Publication status	Published - May 2025

Keywords

Fractionation
Late normal tissue damage
Proton therapy
Radiation-induced fibrosis
relative biological effectiveness (RBE)

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Overgaard, C. B., Reaz, F., Poulsen, P., Spejlborg, H., Overgaard, J., Grau, C., Bassler, N., & Sørensen, B. S. (2025). The fractionation effect on proton RBE in a late normal tissue damage model in vivo. Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology, 206, Article 110792. https://doi.org/10.1016/j.radonc.2025.110792

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abstract = "BACKGROUND AND PURPOSE: A constant relative biological effectiveness (RBE) of 1.1 is used in clinical proton therapy (PT) to convert prescribed photon doses into isoeffective proton doses. However, the RBE is not constant; it is a dynamic parameter highly influenced by factors such as linear energy transfer, tissue type, biological endpoint, and dose/fraction. Preclinical in vivo proton RBE studies using fractionated doses and late damage endpoints are almost nonexistent. The aim is to test the hypotheses that the RBE varies between single and fractionated doses and that the late damage development differs between proton and photon irradiation using a 6 MV linac as a reference modality in a murine leg model.MATERIALS AND METHODS: The right hindlimb of unanesthetized mice was irradiated with single or four fractions of protons or 6 MV photons. Over one year after treatment, the mice were analyzed every fourteenth day using a joint contracture assay to investigate severe radiation-induced late damage.RESULTS: The results indicated a higher RBE for severe late damage endpoint of 1.25 ± 0.06 (1.13-1.36) for fractionated doses than single doses, exhibiting an RBE of 1.16 ± 0.08 (1.00-1.31). The onset of late damage is earlier for protons than photons for doses higher than 47 Gy and fractionated doses above 50 Gy (12.5 Gy per fraction).CONCLUSION: The findings demonstrate that fractionated doses enhance the RBE for a late damage endpoint and lead to an earlier onset of severe late effects than its photon counterpart in vivo.",

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The fractionation effect on proton RBE in a late normal tissue damage model in vivo. / Overgaard, Cathrine Bang; Reaz, Fardous ; Poulsen, Per et al.
In: Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology, Vol. 206, 110792, 05.2025.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

TY - JOUR

T1 - The fractionation effect on proton RBE in a late normal tissue damage model in vivo

AU - Overgaard, Cathrine Bang

AU - Reaz, Fardous

AU - Poulsen, Per

AU - Spejlborg, Harald

AU - Overgaard, Jens

AU - Grau, Cai

AU - Bassler, Niels

AU - Sørensen, Brita Singers

PY - 2025/5

Y1 - 2025/5

N2 - BACKGROUND AND PURPOSE: A constant relative biological effectiveness (RBE) of 1.1 is used in clinical proton therapy (PT) to convert prescribed photon doses into isoeffective proton doses. However, the RBE is not constant; it is a dynamic parameter highly influenced by factors such as linear energy transfer, tissue type, biological endpoint, and dose/fraction. Preclinical in vivo proton RBE studies using fractionated doses and late damage endpoints are almost nonexistent. The aim is to test the hypotheses that the RBE varies between single and fractionated doses and that the late damage development differs between proton and photon irradiation using a 6 MV linac as a reference modality in a murine leg model.MATERIALS AND METHODS: The right hindlimb of unanesthetized mice was irradiated with single or four fractions of protons or 6 MV photons. Over one year after treatment, the mice were analyzed every fourteenth day using a joint contracture assay to investigate severe radiation-induced late damage.RESULTS: The results indicated a higher RBE for severe late damage endpoint of 1.25 ± 0.06 (1.13-1.36) for fractionated doses than single doses, exhibiting an RBE of 1.16 ± 0.08 (1.00-1.31). The onset of late damage is earlier for protons than photons for doses higher than 47 Gy and fractionated doses above 50 Gy (12.5 Gy per fraction).CONCLUSION: The findings demonstrate that fractionated doses enhance the RBE for a late damage endpoint and lead to an earlier onset of severe late effects than its photon counterpart in vivo.

AB - BACKGROUND AND PURPOSE: A constant relative biological effectiveness (RBE) of 1.1 is used in clinical proton therapy (PT) to convert prescribed photon doses into isoeffective proton doses. However, the RBE is not constant; it is a dynamic parameter highly influenced by factors such as linear energy transfer, tissue type, biological endpoint, and dose/fraction. Preclinical in vivo proton RBE studies using fractionated doses and late damage endpoints are almost nonexistent. The aim is to test the hypotheses that the RBE varies between single and fractionated doses and that the late damage development differs between proton and photon irradiation using a 6 MV linac as a reference modality in a murine leg model.MATERIALS AND METHODS: The right hindlimb of unanesthetized mice was irradiated with single or four fractions of protons or 6 MV photons. Over one year after treatment, the mice were analyzed every fourteenth day using a joint contracture assay to investigate severe radiation-induced late damage.RESULTS: The results indicated a higher RBE for severe late damage endpoint of 1.25 ± 0.06 (1.13-1.36) for fractionated doses than single doses, exhibiting an RBE of 1.16 ± 0.08 (1.00-1.31). The onset of late damage is earlier for protons than photons for doses higher than 47 Gy and fractionated doses above 50 Gy (12.5 Gy per fraction).CONCLUSION: The findings demonstrate that fractionated doses enhance the RBE for a late damage endpoint and lead to an earlier onset of severe late effects than its photon counterpart in vivo.

KW - Fractionation

KW - Late normal tissue damage

KW - Proton therapy

KW - Radiation-induced fibrosis

KW - relative biological effectiveness (RBE)

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DO - 10.1016/j.radonc.2025.110792

M3 - Journal article

C2 - 39954865

SN - 0167-8140

VL - 206

JO - Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology

JF - Radiotherapy and oncology : journal of the European Society for Therapeutic Radiology and Oncology

M1 - 110792

ER -

The fractionation effect on proton RBE in a late normal tissue damage model in vivo

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