超高剂量率对循环免疫细胞的影响：FLASH 效应的潜在机制？

Ultra-high dose rate effect on circulating immune cells: A potential mechanism for FLASH effect?

机构信息

Department of Radiation Oncology, University Hospitals, Cleveland Medical Center, United States; Department of Radiation Oncology, Case Western Reserve University School of Medicine, Cleveland, United States.

Department of Radiation Oncology, Case Western Reserve University School of Medicine, Cleveland, United States; Department of Radiation Oncology, Harbin Medical University Cancer Hospital, China.

出版信息

Radiother Oncol. 2020 Aug;149:55-62. doi: 10.1016/j.radonc.2020.04.054. Epub 2020 May 6.

DOI:10.1016/j.radonc.2020.04.054

PMID:32387486

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7442672/

Abstract

PURPOSE

"FLASH" radiotherapy (RT) is a potential paradigm-changing RT technology with marked tumor killing and normal tissue sparing. However, the mechanism of the FLASH effect is not well understood. We hypothesize that the ultra-high dose rate FLASH-RT significantly reduces the killing of circulating immune cells which may partially contribute to the reported FLASH effect.

METHODS

This computation study directly models the effect of radiation dose rate on the killing of circulating immune cells. The model considers an irradiated volume that takes up A% of cardiac output and contains B% of total blood. The irradiated blood volume and dose were calculated for various A%, B%, blood circulation time, and irradiation time (which depends on the dose rate). The linear-quadratic model was used to calculate the extent of killing of circulating immune cells at ultra-high vs. conventional dose rates.

RESULTS

A strong sparing effect on circulating blood cells by FLASH-RT was noticed; i.e., killing of circulating immune cells reduced from 90% to 100% at conventional dose rates to 5-10% at ultra-high dose rates. The threshold FLASH dose rate was determined to be ~40 Gy/s for mice in an average situation (A% = 50%), consistent with the reported FLASH dose rate in animal studies, and it was approximately one order of magnitude lower for humans than for mice. The magnitude of this sparing effect increased with the dose/fraction, reached a plateau at 30-50 Gy/fraction, and almost completely vanished at 2 Gy/fraction.

CONCLUSION

We have calculated a strong sparing effect on circulating immune cells by FLASH-RT, which may contribute to the reported FLASH effects in animal studies.

摘要

目的

“FLASH”放疗（RT）是一种具有显著肿瘤杀伤和正常组织保护作用的潜在变革性 RT 技术。然而，FLASH 效应的机制尚不清楚。我们假设超高剂量率 FLASH-RT 可显著降低循环免疫细胞的杀伤作用，这可能部分解释了所报道的 FLASH 效应。

方法

本计算研究直接模拟了剂量率对循环免疫细胞杀伤作用的影响。该模型考虑了一个接受辐射的体积，该体积占据心输出量的 A%，并包含总血液的 B%。计算了不同 A%、B%、血液循环时间和照射时间（取决于剂量率）下的受照血容量和剂量。采用线性二次模型计算超高与常规剂量率下循环免疫细胞杀伤的程度。

结果

FLASH-RT 对循环血液细胞表现出强烈的保护作用；即在常规剂量率下，循环免疫细胞的杀伤率从 90%降至 100%，而在超高剂量率下降至 5-10%。确定了平均情况下（A%=50%）FLASH 剂量率的阈值约为 40 Gy/s，与动物研究中报道的 FLASH 剂量率一致，且对于人类而言，其值比小鼠低约一个数量级。这种保护作用的幅度随着剂量/分割的增加而增加，在 30-50 Gy/分割时达到平台，在 2 Gy/分割时几乎完全消失。

结论

我们计算出 FLASH-RT 对循环免疫细胞的强烈保护作用，这可能有助于解释动物研究中所报道的 FLASH 效应。

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