Development of dosimetric procedures for experimental ultrahigh dose rate irradiation at a clinical linear accelerator

E. Konradsson; K. Petersson; G. Adrian; M. Lempart; B. Blad; S. Ceberg; T. Knöös; S. Å.J. Bäck; C. Ceberg

doi:10.1088/1742-6596/2167/1/012003

Development of dosimetric procedures for experimental ultrahigh dose rate irradiation at a clinical linear accelerator

E. Konradsson, K. Petersson, G. Adrian, M. Lempart, B. Blad, S. Ceberg, T. Knöös, S. Å.J. Bäck, C. Ceberg

Research output: Chapter in Book/Report/Conference proceeding › Paper in conference proceeding › peer-review

Abstract

As radiotherapy using ultra-high dose rates has gained new interest, the dosimetric challenges arising at these conditions needs to be addressed. Ionization chambers suffer from a large decrease in ion collection efficiency due to ion recombination, making on-line dosimetry difficult. In this work we present experimental setups and dosimetric procedures for FLASH irradiation of cells, zebrafish embryos and small animals using a 10 MeV electron beam at a modified clinical linear accelerator, and describe the dosimetric steps required to initiate clinical trials. The dosimetric equipment used for our pre-clinical experiments consisted of radiochromic film, thermoluminescent dosimeters, a Farmer-type ionization chamber and phantom material mimicking the experimental setup for irradiation. In preparation for small animal irradiation, dose profiles and depth dose curves were measured for all collimator sizes. The average dose rates were ≥620 Gy/s, ≥640 Gy/s and ≥400 Gy/s for cells, zebrafish embryos and small animals, respectively.

Original language	English
Title of host publication	Journal of Physics: Conference Series
Publisher	IOP Publishing
Volume	2167
Edition	1
DOIs	https://doi.org/10.1088/1742-6596/2167/1/012003
Publication status	Published - 2022 Jan
Event	11th International Conference on 3D Radiation Dosimetry, IC3DDose 2021 - Quebec City, Virtual, Canada Duration: 2021 Jun 15 → …

Conference

Conference	11th International Conference on 3D Radiation Dosimetry, IC3DDose 2021
Country/Territory	Canada
City	Quebec City, Virtual
Period	2021/06/15 → …

Subject classification (UKÄ)

Cancer and Oncology
Radiology, Nuclear Medicine and Medical Imaging
Other Physics Topics

Access to Document

10.1088/1742-6596/2167/1/012003

Cite this

Konradsson, E., Petersson, K., Adrian, G., Lempart, M., Blad, B., Ceberg, S., Knöös, T., Bäck, S. Å. J., & Ceberg, C. (2022). Development of dosimetric procedures for experimental ultrahigh dose rate irradiation at a clinical linear accelerator. In Journal of Physics: Conference Series (1 ed., Vol. 2167). [012003] IOP Publishing. https://doi.org/10.1088/1742-6596/2167/1/012003

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title = "Development of dosimetric procedures for experimental ultrahigh dose rate irradiation at a clinical linear accelerator",

abstract = "As radiotherapy using ultra-high dose rates has gained new interest, the dosimetric challenges arising at these conditions needs to be addressed. Ionization chambers suffer from a large decrease in ion collection efficiency due to ion recombination, making on-line dosimetry difficult. In this work we present experimental setups and dosimetric procedures for FLASH irradiation of cells, zebrafish embryos and small animals using a 10 MeV electron beam at a modified clinical linear accelerator, and describe the dosimetric steps required to initiate clinical trials. The dosimetric equipment used for our pre-clinical experiments consisted of radiochromic film, thermoluminescent dosimeters, a Farmer-type ionization chamber and phantom material mimicking the experimental setup for irradiation. In preparation for small animal irradiation, dose profiles and depth dose curves were measured for all collimator sizes. The average dose rates were ≥620 Gy/s, ≥640 Gy/s and ≥400 Gy/s for cells, zebrafish embryos and small animals, respectively.",

author = "E. Konradsson and K. Petersson and G. Adrian and M. Lempart and B. Blad and S. Ceberg and T. Kn{\"o}{\"o}s and B{\"a}ck, {S. {\AA}.J.} and C. Ceberg",

year = "2022",

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booktitle = "Journal of Physics: Conference Series",

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Konradsson, E , Petersson, K , Adrian, G , Lempart, M, Blad, B, Ceberg, S , Knöös, T , Bäck, SÅJ & Ceberg, C 2022, Development of dosimetric procedures for experimental ultrahigh dose rate irradiation at a clinical linear accelerator. in Journal of Physics: Conference Series. 1 edn, vol. 2167, 012003, IOP Publishing, 11th International Conference on 3D Radiation Dosimetry, IC3DDose 2021, Quebec City, Virtual, Canada, 2021/06/15. https://doi.org/10.1088/1742-6596/2167/1/012003

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T1 - Development of dosimetric procedures for experimental ultrahigh dose rate irradiation at a clinical linear accelerator

AU - Konradsson, E.

AU - Petersson, K.

AU - Adrian, G.

AU - Lempart, M.

AU - Blad, B.

AU - Ceberg, S.

AU - Knöös, T.

AU - Bäck, S. Å.J.

AU - Ceberg, C.

PY - 2022/1

Y1 - 2022/1

N2 - As radiotherapy using ultra-high dose rates has gained new interest, the dosimetric challenges arising at these conditions needs to be addressed. Ionization chambers suffer from a large decrease in ion collection efficiency due to ion recombination, making on-line dosimetry difficult. In this work we present experimental setups and dosimetric procedures for FLASH irradiation of cells, zebrafish embryos and small animals using a 10 MeV electron beam at a modified clinical linear accelerator, and describe the dosimetric steps required to initiate clinical trials. The dosimetric equipment used for our pre-clinical experiments consisted of radiochromic film, thermoluminescent dosimeters, a Farmer-type ionization chamber and phantom material mimicking the experimental setup for irradiation. In preparation for small animal irradiation, dose profiles and depth dose curves were measured for all collimator sizes. The average dose rates were ≥620 Gy/s, ≥640 Gy/s and ≥400 Gy/s for cells, zebrafish embryos and small animals, respectively.

AB - As radiotherapy using ultra-high dose rates has gained new interest, the dosimetric challenges arising at these conditions needs to be addressed. Ionization chambers suffer from a large decrease in ion collection efficiency due to ion recombination, making on-line dosimetry difficult. In this work we present experimental setups and dosimetric procedures for FLASH irradiation of cells, zebrafish embryos and small animals using a 10 MeV electron beam at a modified clinical linear accelerator, and describe the dosimetric steps required to initiate clinical trials. The dosimetric equipment used for our pre-clinical experiments consisted of radiochromic film, thermoluminescent dosimeters, a Farmer-type ionization chamber and phantom material mimicking the experimental setup for irradiation. In preparation for small animal irradiation, dose profiles and depth dose curves were measured for all collimator sizes. The average dose rates were ≥620 Gy/s, ≥640 Gy/s and ≥400 Gy/s for cells, zebrafish embryos and small animals, respectively.

U2 - 10.1088/1742-6596/2167/1/012003

DO - 10.1088/1742-6596/2167/1/012003

M3 - Paper in conference proceeding

AN - SCOPUS:85124685147

VL - 2167

BT - Journal of Physics: Conference Series

PB - IOP Publishing

T2 - 11th International Conference on 3D Radiation Dosimetry, IC3DDose 2021

Y2 - 15 June 2021

ER -

Development of dosimetric procedures for experimental ultrahigh dose rate irradiation at a clinical linear accelerator

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