The dresden platform is a research hub for ultra-high dose rate radiobiology

放射生物学 闪光灯(摄影) 计算机科学 剂量率 医学物理学 核医学 辐照 物理 医学 核物理学 光学
作者
Josefine Metzkes-Ng,Florian‐Emanuel Brack,Florian Kroll,Constantin Bernert,Stefan Bock,Elisabeth Bodenstein,Michael Brand,T. E. Cowan,René Gebhardt,Stefan Hans,Uwe Helbig,Felix Horst,Jeannette Jansen,Stephan Kraft,Mechthild Krause,Elisabeth Leßmann,Steffen Löck,Jörg Pawelke,Thomas Püschel,Marvin Reimold
出处
期刊:Scientific Reports [Nature Portfolio]
卷期号:13 (1) 被引量:8
标识
DOI:10.1038/s41598-023-46873-8
摘要

Abstract The recently observed FLASH effect describes the observation of normal tissue protection by ultra-high dose rates (UHDR), or dose delivery in a fraction of a second, at similar tumor-killing efficacy of conventional dose delivery and promises great benefits for radiotherapy patients. Dedicated studies are now necessary to define a robust set of dose application parameters for FLASH radiotherapy and to identify underlying mechanisms. These studies require particle accelerators with variable temporal dose application characteristics for numerous radiation qualities, equipped for preclinical radiobiological research. Here we present the dresden platform , a research hub for ultra-high dose rate radiobiology. By uniting clinical and research accelerators with radiobiology infrastructure and know-how, the dresden platform offers a unique environment for studying the FLASH effect. We introduce its experimental capabilities and demonstrate the platform’s suitability for systematic investigation of FLASH by presenting results from a concerted in vivo radiobiology study with zebrafish embryos. The comparative pre-clinical study was conducted across one electron and two proton accelerator facilities, including an advanced laser-driven proton source applied for FLASH-relevant in vivo irradiations for the first time. The data show a protective effect of UHDR irradiation up to $$10^{5}\text{Gy}/\text{s}$$ 10 5 Gy / s and suggests consistency of the protective effect even at escalated dose rates of $$10^9\text{Gy}/\text{s}$$ 10 9 Gy / s . With the first clinical FLASH studies underway, research facilities like the dresden platform , addressing the open questions surrounding FLASH, are essential to accelerate FLASH’s translation into clinical practice.
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