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立体定向体部放射治疗(SBRT)的放射生物学

Radiobiology of stereotactic body radiation therapy (SBRT).

作者信息

Macià I Garau Miquel

机构信息

Radiation Oncology Department and Translational Research Laboratory, Institut Català d'Oncologia (ICO), L'Hospitalet de Llobregat, Catalonia, Spain.

出版信息

Rep Pract Oncol Radiother. 2017 Mar-Apr;22(2):86-95. doi: 10.1016/j.rpor.2017.02.010. Epub 2017 Mar 23.

Abstract

Recent advances in the technology of radiotherapy have enabled the development of new therapeutic modalities that deliver radiation with very high accuracy, reduced margins and high dose conformation, allowing the reduction of healthy tissue irradiated and therefore minimizing the risk of toxicity. The next step was to increase the total tumor dose using conventional fractionation (which remains the best way to relatively radioprotect healthy tissues when large volumes are treated) or to use new fractionation schemes with greater biological effectiveness. Based on the experience gained in radiosurgery, the latter way was chosen for small and well-defined tumors in the body. Stereotactic body radiotherapy delivers high doses of radiation to small and well-defined targets in an extreme hypofractionated (and accelerated) scheme with a very high biological effectiveness obtaining very good initial clinical results in terms of local tumor control and acceptable rate of late complications. In fact, we realize a posteriori that it was not feasible to administer such biologically equivalent dose in a conventional fractionation because the treatment could last several months. So far, these new therapeutic modalities have been developed due to technologic advances in image guidance and treatment delivery but without a solid biological basis. It is the role of traditional radiobiology (and molecular radiobiology) to explain the effects of high doses of ionizing radiation on tumor and normal tissues. Only through a better understanding of how high doses of ionizing radiation act, clinicians will know exactly what we do, allowing us in the future to refine our treatments. This article attempts to describe through simple and understandable concepts the known aspects of the biological action of high doses of radiation on tumor and normal tissues, but it is clear that we need much more basic research to better understand the biology of high doses of radiation.

摘要

放射治疗技术的最新进展促成了新治疗模式的发展,这些模式能够以非常高的精度、更小的边界和高剂量适形性来递送辐射,从而减少受照射的健康组织,进而将毒性风险降至最低。下一步是使用传统分割方式增加总肿瘤剂量(当治疗大体积肿瘤时,这仍然是相对保护健康组织的最佳方法),或者使用具有更高生物学效应的新分割方案。基于在放射外科手术中获得的经验,对于身体内小且边界清晰的肿瘤选择了后一种方法。立体定向体部放射治疗以极高的生物学效应,通过极端低分割(且加速)方案向小且边界清晰的靶区递送高剂量辐射,在局部肿瘤控制和可接受的晚期并发症发生率方面取得了非常好的初步临床结果。事实上,我们事后意识到,以传统分割方式给予如此生物等效剂量是不可行的,因为治疗可能会持续数月。到目前为止,这些新治疗模式的发展得益于图像引导和治疗递送方面的技术进步,但缺乏坚实的生物学基础。传统放射生物学(以及分子放射生物学)的作用是解释高剂量电离辐射对肿瘤和正常组织的影响。只有通过更好地理解高剂量电离辐射的作用方式,临床医生才能确切知道我们在做什么,从而使我们未来能够优化治疗。本文试图通过简单易懂的概念描述高剂量辐射对肿瘤和正常组织生物学作用的已知方面,但显然我们需要更多的基础研究来更好地理解高剂量辐射的生物学特性。

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