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本文引用的文献

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Sci Rep. 2024 Jan 8;14(1):822. doi: 10.1038/s41598-023-50412-w.
2
Proton FLASH Radiation Therapy and Immune Infiltration: Evaluation in an Orthotopic Glioma Rat Model.质子 FLASH 放射治疗与免疫浸润:在原位脑胶质瘤大鼠模型中的评估。
Int J Radiat Oncol Biol Phys. 2023 Jul 1;116(3):655-665. doi: 10.1016/j.ijrobp.2022.12.018. Epub 2022 Dec 21.
3
FLASH radiotherapy: an emerging approach in radiation therapy.FLASH放射治疗:放射治疗中的一种新兴方法。
Rep Pract Oncol Radiother. 2022 May 19;27(2):344-351. doi: 10.5603/RPOR.a2022.0038. eCollection 2022.
4
Design optimization of an electron-to-photon conversion target for ultra-high dose rate x-ray (FLASH) experiments at TRIUMF.用于 TRIUMF 超高剂量率 X 射线(FLASH)实验的电子-光子转换靶的设计优化。
Phys Med Biol. 2022 May 12;67(10). doi: 10.1088/1361-6560/ac5ed6.
5
First demonstration of the FLASH effect with ultrahigh dose rate high-energy X-rays.首次利用超高剂量率高能 X 射线展示 FLASH 效应。
Radiother Oncol. 2022 Jan;166:44-50. doi: 10.1016/j.radonc.2021.11.004. Epub 2021 Nov 11.
6
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7
Radiation-Induced Lung Fibrosis: Preclinical Animal Models and Therapeutic Strategies.放射性肺纤维化:临床前动物模型与治疗策略
Cancers (Basel). 2020 Jun 12;12(6):1561. doi: 10.3390/cancers12061561.
8
FLASH radiotherapy: ultra-high dose rates to spare healthy tissue.FLASH 放疗:超高剂量率以保护健康组织。
Int J Radiat Biol. 2020 Apr;96(4):419-423. doi: 10.1080/09553002.2020.1704912. Epub 2019 Dec 19.
9
Ultra high dose rate (35 Gy/sec) radiation does not spare the normal tissue in cardiac and splenic models of lymphopenia and gastrointestinal syndrome.超高剂量率(35Gy/秒)辐射在淋巴细胞减少症和胃肠道综合征的心脏和脾脏模型中不会保护正常组织。
Sci Rep. 2019 Nov 20;9(1):17180. doi: 10.1038/s41598-019-53562-y.
10
Long-term neurocognitive benefits of FLASH radiotherapy driven by reduced reactive oxygen species.FLASH 放疗通过减少活性氧而带来的长期神经认知获益。
Proc Natl Acad Sci U S A. 2019 May 28;116(22):10943-10951. doi: 10.1073/pnas.1901777116. Epub 2019 May 16.

呼吸门控微型计算机断层扫描成像用于测量超高剂量率和常规剂量率放射治疗后小鼠的放射性肺损伤。

Respiratory-gated micro-computed tomography imaging to measure radiation-induced lung injuries in mice following ultra-high dose-rate and conventional dose-rate radiation therapy.

作者信息

Ford Nancy Lee, Ren Xi, Egoriti Luca, Esplen Nolan, Radel Stephanie, Humphries Brandon, Koay Hui-Wen, Planche Thomas, Hoehr Cornelia, Gottberg Alexander, Bazalova-Carter Magdalena

机构信息

The University of British Columbia, Department of Oral Biological and Medical Sciences, Vancouver, British Columbia, Canada.

The University of British Columbia, Department of Physics and Astronomy, Vancouver, British Columbia, Canada.

出版信息

J Med Imaging (Bellingham). 2025 Jan;12(1):014002. doi: 10.1117/1.JMI.12.1.014002. Epub 2025 Jan 30.

DOI:10.1117/1.JMI.12.1.014002
PMID:39895854
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11780179/
Abstract

PURPOSE

Ultra-high dose-rate radiotherapy (FLASH-RT) shows the potential to eliminate tumors while sparing healthy tissues. To investigate radiation-induced lung damage, we used respiratory-gated micro-computed tomography (micro-CT) to monitor mice that received photon FLASH-RT or conventional RT on the FLASH irradiation research station at TRIUMF.

APPROACH

Thirty healthy male C57BL/6 mice received baseline micro-CT scans followed by radiation therapy targeting the thorax. Treatments administered included no irradiation, 10-MV photon FLASH-RT, and 10-MV conventional RT with either 15 or 30 Gy prescribed dose. Follow-up micro-CT scans were obtained up to 24 weeks post-irradiation, and histology was obtained at the experimental endpoint. Lung volume and CT number were measured during peak inspiration and end-expiration and used to calculate the functional residual capacity (FRC) and tidal volume ( ).

RESULTS

Radiation pneumonitis was observed sporadically in micro-CT images at 9 and 12 weeks post-irradiation. Fibrosis was observed in the endpoint images and confirmed with histology. Compared with the 15-Gy treatment groups and unirradiated controls, the micro-CT images for 30-Gy FLASH-RT showed differences during peak inspiration, with a significant reduction in , whereas the 30-Gy conventional RT showed differences during end-expiration, with a significant difference in FRC from 15 Gy. Between 12 weeks and the endpoint, the 30-Gy conventional RT group exhibited the largest reduction in lung volume.

CONCLUSIONS

Respiratory-gated micro-CT imaging was sensitive to radiation pneumonitis and fibrosis. Significant differences were seen in functional metrics measured at the endpoint for FRC (both 30-Gy groups) and (30-Gy FLASH-RT) compared with the control.

摘要

目的

超高剂量率放疗(FLASH-RT)显示出在消除肿瘤的同时保护健康组织的潜力。为了研究辐射诱导的肺损伤,我们使用呼吸门控微型计算机断层扫描(微型CT)来监测在TRIUMF的FLASH辐照研究站接受光子FLASH-RT或传统放疗的小鼠。

方法

30只健康雄性C57BL/6小鼠接受基线微型CT扫描,随后进行胸部放疗。给予的治疗包括不进行照射、10-MV光子FLASH-RT以及规定剂量为15或30 Gy的10-MV传统放疗。在照射后长达24周进行随访微型CT扫描,并在实验终点获取组织学样本。在吸气峰值和呼气末测量肺体积和CT值,并用于计算功能残气量(FRC)和潮气量( )。

结果

在照射后9周和12周的微型CT图像中偶尔观察到放射性肺炎。在终点图像中观察到纤维化,并通过组织学证实。与15-Gy治疗组和未照射的对照组相比,30-Gy FLASH-RT的微型CT图像在吸气峰值时显示出差异, 显著降低,而30-Gy传统放疗在呼气末显示出差异,FRC与15 Gy有显著差异。在12周和终点之间,30-Gy传统放疗组的肺体积减少最大。

结论

呼吸门控微型CT成像对放射性肺炎和纤维化敏感。与对照组相比,在终点测量的FRC功能指标(两个30-Gy组)和 (30-Gy FLASH-RT)中观察到显著差异。