Dose Rate Effects from the 1950s through to the Era of FLASH.

IF 2.5 3区 医学 Q2 BIOLOGY
Kathryn D Held, Aimee L McNamara, Juliane Daartz, Mandar S Bhagwat, Bethany Rothwell, Jan Schuemann
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引用次数: 0

Abstract

Numerous dose rate effects have been described over the past 6-7 decades in the radiation biology and radiation oncology literature depending on the dose rate range being discussed. This review focuses on the impact and understanding of altering dose rates in the context of radiation therapy, but does not discuss dose rate effects as relevant to radiation protection. The review starts with a short historic review of early studies on dose rate effects, considers mechanisms thought to underlie dose rate dependencies, then discusses some current issues in clinical findings with altered dose rates, the importance of dose rate in brachytherapy, and the current timely topic of the use of very high dose rates, so-called FLASH radiotherapy. The discussion includes dose rate effects in vitro in cultured cells, in in vivo experimental systems and in the clinic, including both tumors and normal tissues. Gaps in understanding dose rate effects are identified, as are opportunities for improving clinical use of dose rate modulation.

从 20 世纪 50 年代到 FLASH 时代的剂量率效应。
在过去的六七十年中,根据所讨论的剂量率范围,放射生物学和放射肿瘤学文献中描述了许多剂量率效应。本综述重点关注改变剂量率对放射治疗的影响和理解,但不讨论与辐射防护相关的剂量率效应。综述首先对早期剂量率效应研究进行了简短的历史回顾,考虑了被认为是剂量率依赖性基础的机制,然后讨论了目前在改变剂量率的临床研究结果中存在的一些问题、近距离放射治疗中剂量率的重要性,以及使用超高剂量率(即所谓的 "闪烁 "放疗)这一当前的热门话题。讨论内容包括体外培养细胞、体内实验系统和临床(包括肿瘤和正常组织)中的剂量率效应。报告指出了在了解剂量率效应方面存在的差距,以及改进剂量率调制临床应用的机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Radiation research
Radiation research 医学-核医学
CiteScore
5.10
自引率
8.80%
发文量
179
审稿时长
1 months
期刊介绍: Radiation Research publishes original articles dealing with radiation effects and related subjects in the areas of physics, chemistry, biology and medicine, including epidemiology and translational research. The term radiation is used in its broadest sense and includes specifically ionizing radiation and ultraviolet, visible and infrared light as well as microwaves, ultrasound and heat. Effects may be physical, chemical or biological. Related subjects include (but are not limited to) dosimetry methods and instrumentation, isotope techniques and studies with chemical agents contributing to the understanding of radiation effects.
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