Understanding the FLASH effect to unravel the potential of ultra-high dose rate irradiation.
TLDR
A review of the field of ultra-high dose rates (UHDRs) can be found in this paper, where the authors have developed a multidisciplinary research team focused on investigating the mechanisms and clinical translation of the FLASH effect.Abstract:
A reemergence of research implementing radiation delivery at ultra-high dose rates (UHDRs) has triggered intense interest in the radiation sciences and has opened a new field of investigation in radiobiology. Much of the promise of UHDR irradiation involves the FLASH effect, an in vivo biological response observed to maintain anti-tumor efficacy without the normal tissue complications associated with standard dose rates. The FLASH effect has been validated primarily, using intermediate energy electron beams able to deliver high doses (>7 Gy) in a very short period of time (<200 ms), but has also been found with photon and proton beams. The clinical implications of this new area of research are highly significant, as FLASH radiotherapy (FLASH-RT) has the potential to enhance the therapeutic index, opening new possibilities for eradicating radio-resistant tumors without toxicity. As pioneers in this field, our group has developed a multidisciplinary research team focused on investigating the mechanisms and clinical translation of the FLASH effect. Here, we review the field of UHDR, from the physico-chemical to the biological mechanisms.read more
Citations
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Journal ArticleDOI
Towards clinical translation of FLASH radiotherapy
TL;DR: An overview of the principles underlying FLASH radiotherapy is provided and the challenges along the path towards its clinical application are discussed, including the need for a better understanding of the biological mechanisms, optimization of parameters and technological challenges.
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Dose- and Volume-Limiting Late Toxicity of FLASH Radiotherapy in Cats with Squamous Cell Carcinoma of the Nasal Planum and in Mini Pigs
TL;DR: Maity et al. as discussed by the authors designed a randomized phase III trial to investigate the FLASH effect in cat patients with spontaneous tumors, which was prematurely interrupted due to maxillary bone necrosis, which occurred 9 to 15 months after radiotherapy in 3 of 7 cats treated with FLASH-radiotherapy.
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FLASH with carbon ions: tumor control, normal tissue sparing, and distal metastasis in a mouse osteosarcoma model.
Walter Tinganelli,Ulrich Weber,Anggraeini Puspitasari,Palma Simoniello,Amir Abdollahi,Julius Oppermann,Christoph Schuy,Felix Horst,Alexander Helm,Claudia Fournier,Marco Durante +10 more
TL;DR: In this article , the authors presented the first in vivo results with high-energy 12C-ions delivered at an ultra-high dose rate and demonstrated the FLASH effect in vivo with high energy carbon ions.
Journal ArticleDOI
Beam pulse structure and dose rate as determinants for the flash effect observed in zebrafish embryo.
Leonhard Karsch,Jörg Pawelke,Michael Brand,Stefan Hans,Katalin Hideghéty,Jeannette Jansen,Elisabeth Lessmann,S. Löck,Michael Schürer,R. Schurig,Joao Seco,Emília Rita Szabó,Elke Beyreuther +12 more
TL;DR: In this article , the effect of beam pulse structure on the Flash effect was investigated at the research electron accelerator ELBE at the Helmholtz-Zentrum Dresden-Rossendorf.
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Comparing radiolytic production of H2O2 and development of Zebrafish embryos after ultra high dose rate exposure with electron and Transmission proton beams.
Houda Haj Kacem,S. Psoroulas,Gael Boivin,Michael Folkerts,Veljko Grilj,T. Lomax,Adrien Martinotti,D. Meer,Jonathan Ollivier,Benoit Petit,Sairos Safai,Ricky A. Sharma,Michele Togno,Marta Vilalta,Damien C. Weber,Marie-Catherine Vozenin +15 more
TL;DR: In this paper , the Physico-chemical and biological response to conventional and UHDR electron and proton beams was investigated, along with conventional photons, and the temporal structure and nature of the beam affected both, with electron beam at ≥ 1400 Gy/s and proion beam at 0.1 and 1260 Gy/m found to be isoefficient at sparing zebrafish embryos.
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