背景(考古学)
限制
放射治疗
闪光灯(摄影)
医学
临床试验
翻译(生物学)
计算机科学
医学物理学
放射科
病理
生物
物理
光学
工程类
信使核糖核酸
古生物学
基因
机械工程
生物化学
作者
Jean Bourhis,Pierre Montay‐Gruel,Patrik Gonçalves Jorge,Claude Bailat,Benoît Petit,Jonathan Ollivier,Wendy Jeanneret‐Sozzi,Mahmut Özşahin,François Bochud,Raphaël Moeckli,Jean‐François Germond,Marie‐Catherine Vozenin
标识
DOI:10.1016/j.radonc.2019.04.008
摘要
Over the past decades, technological advances have transformed radiation therapy (RT) into a precise and powerful treatment for cancer patients. Nevertheless, the treatment of radiation-resistant tumors is still restricted by the dose-limiting normal tissue complications. In this context, FLASH-RT is emerging in the field. Consisting of delivering doses within an extremely short irradiation time, FLASH-RT has been identified as a promising new tool to enhance the differential effect between tumors and normal tissues. Indeed, preclinical studies on various animal models and a veterinarian clinical trial have recently shown that compared to conventional dose-rate RT, FLASH-RT could control tumors while minimizing normal tissue toxicity. In the present review, we summarize the main data supporting the clinical translation of FLASH-RT and explore its feasibility, the key irradiation parameters and the potential technologies needed for a successful clinical translation.
科研通智能强力驱动
Strongly Powered by AbleSci AI