3D printed microtissue cassettes enabling high throughput proton radiobiological assays

IF 5.7 2区化学 Q1 CHEMISTRY, ANALYTICAL

Analytica Chimica Acta Pub Date : 2025-04-08 DOI:10.1016/j.aca.2025.344027

Chih-Tsung Yang , I-Chun Cho , Ching-Fang Yu , Edward Cheah , Tesi Liu , Yi-Ping Lin , Sing-Yu Hu , Jyun-Wei Jheng , Ivan Kempson , Tsi-Chian Chao , Sen-Hao Lee , Eva Bezak , Benjamin Thierry

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引用次数: 0

Abstract

Background

The concept of Relative Biological Effectiveness (RBE) enables to translate the clinical experience for photon treatments to proton beam therapy. However, uncertainties in the proton RBE across the spread-out Bragg peak (SOBP) (typically assumed to be 1.1) may lead to suboptimal treatment plans and unwarranted toxicity to organs-at-risk. Herein, we report a reliable analytical method to determine the proton RBE in vitro along the SOBP and distal fall-off region. The 3D microtissue cassette enables the high throughput assessment of biological assays including clonogenic assay and γ-H2AX assay following a single proton irradiation.

Results

Proton RBE values determined using the standard clonogenic assay at 90 %, 50 % and 10 % of cell survival were calculated to be 1.3, 1.5 and 1.6, respectively. This was found to be consistent with the RBE determined using the γ-H2AX for double-strand DNA break repair (1.58 for 10 % cell survival). In addition, we also observed that the high spatial resolution of the cassette can distinguish the minute but significant γ-H2AX foci changes (number, area) in response to small differences in proton radiation dose fraction.

Significance

The results validate the reliability of the 3D printed cassette in addressing critical radiobiological issues. This methodology enables high throughput irradiation workflow and consequently reduce the time and resource burden for clinical facilities. This approach could be readily extended to investigate the radiobiological unknown of other emerging radiation therapy modalities based on charged particles.

Abstract Image

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三维打印微组织盒实现高通量质子放射生物学测定

背景相对生物学效应（Relative Biological Effectiveness， RBE）的概念使光子治疗的临床经验能够转化为质子束治疗。然而，质子RBE在扩展布拉格峰（SOBP）上的不确定性（通常假设为1.1）可能导致次优治疗计划和对危险器官的不必要毒性。在此，我们报告了一种可靠的分析方法来测定体外沿SOBP和远端脱落区质子RBE。3D显微组织盒能够在单质子照射后进行高通量生物测定，包括克隆测定和γ-H2AX测定。结果在细胞存活90%、50%和10%时，质子RBE值分别为1.3、1.5和1.6。这与使用γ-H2AX测定的双链DNA断裂修复RBE（1.58, 10%细胞存活率）一致。此外，我们还观察到，盒式的高空间分辨率可以区分微小但显著的γ-H2AX焦点变化（数量，面积），以响应质子辐射剂量分数的微小差异。结果验证了3D打印盒在解决关键放射生物学问题方面的可靠性。该方法实现了高通量辐照工作流程，从而减少了临床设施的时间和资源负担。这种方法可以很容易地扩展到研究其他基于带电粒子的新兴放射治疗方式的放射生物学未知。

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

Analytica Chimica Acta 化学-分析化学

CiteScore

10.40

自引率

6.50%

发文量

1081

审稿时长

38 days

期刊介绍： Analytica Chimica Acta has an open access mirror journal Analytica Chimica Acta: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. Analytica Chimica Acta provides a forum for the rapid publication of original research, and critical, comprehensive reviews dealing with all aspects of fundamental and applied modern analytical chemistry. The journal welcomes the submission of research papers which report studies concerning the development of new and significant analytical methodologies. In determining the suitability of submitted articles for publication, particular scrutiny will be placed on the degree of novelty and impact of the research and the extent to which it adds to the existing body of knowledge in analytical chemistry.