Umberto Deut, Aurora Camperi, Cristiano Cavicchi, Roberto Cirio, Emanuele Data, Elisabetta Durisi, Veronica Ferrero, Arianna Ferro, Simona Giordanengo, Oscar A. Martì Villarreal, Felix Mas Milian, Elisabetta Medina, Diango M. Montalvan Olivares, Franco Mostardi, Valeria Monti, Roberto Sacchi, Edoardo Salmeri, Anna Vignati
{"title":"Characterization of a modified clinical linear accelerator for ultra-high dose rate electron beam delivery","authors":"Umberto Deut, Aurora Camperi, Cristiano Cavicchi, Roberto Cirio, Emanuele Data, Elisabetta Durisi, Veronica Ferrero, Arianna Ferro, Simona Giordanengo, Oscar A. Martì Villarreal, Felix Mas Milian, Elisabetta Medina, Diango M. Montalvan Olivares, Franco Mostardi, Valeria Monti, Roberto Sacchi, Edoardo Salmeri, Anna Vignati","doi":"arxiv-2407.16027","DOIUrl":null,"url":null,"abstract":"Irradiations at Ultra High Dose Rate (UHDR) regimes, exceeding 40 Gy/s in\nsingle fractions lasting less than 200 ms, have shown an equivalent antitumor\neffect compared to conventional radio-therapy with reduced harm to normal\ntissues. This work details the hardware and software modi-fications implemented\nto deliver 10 MeV UHDR electron beams with a Linear Accelerator Elekta SL 18 MV\nand the beam characteristics obtained. GafChromic EBT XD films and an Advanced\nMarkus chamber were used for the dosimetry characterization, while a silicon\nsensor assessed the machine's beam pulses stability and repeatability. Dose per\npulse, average dose rate and instantaneous dose rate in the pulse were\nevaluated for four experimental settings, varying the source-to-surface\ndis-tance and the beam collimation, i.e. with and without the use of a\ncylindrical applicator. Results showed dose per pulse from 0.6 Gy to a few tens\nof Gy and average dose rate up to 300 Gy/s. The obtained results demonstrate\nthe possibility to perform in-vitro radiobiology experiments and test of new\ntechnologies for beam monitoring and dosimetry at the upgraded LINAC, thus\ncontributing to the electron UHDR research field.","PeriodicalId":501378,"journal":{"name":"arXiv - PHYS - Medical Physics","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2024-07-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"arXiv - PHYS - Medical Physics","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/arxiv-2407.16027","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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Abstract
Irradiations at Ultra High Dose Rate (UHDR) regimes, exceeding 40 Gy/s in
single fractions lasting less than 200 ms, have shown an equivalent antitumor
effect compared to conventional radio-therapy with reduced harm to normal
tissues. This work details the hardware and software modi-fications implemented
to deliver 10 MeV UHDR electron beams with a Linear Accelerator Elekta SL 18 MV
and the beam characteristics obtained. GafChromic EBT XD films and an Advanced
Markus chamber were used for the dosimetry characterization, while a silicon
sensor assessed the machine's beam pulses stability and repeatability. Dose per
pulse, average dose rate and instantaneous dose rate in the pulse were
evaluated for four experimental settings, varying the source-to-surface
dis-tance and the beam collimation, i.e. with and without the use of a
cylindrical applicator. Results showed dose per pulse from 0.6 Gy to a few tens
of Gy and average dose rate up to 300 Gy/s. The obtained results demonstrate
the possibility to perform in-vitro radiobiology experiments and test of new
technologies for beam monitoring and dosimetry at the upgraded LINAC, thus
contributing to the electron UHDR research field.
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