3D printed microtissue cassettes enabling high throughput proton radiobiological assays

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

Uncertainties on proton relative biological effectiveness (RBE) across the spread out of Bragg peak (SOBP) (typically assumed to be 1.1) may lead to suboptimal treatment plan and unwarranted toxicity to organs-at-risk. Herein, we report a reliable analytical method to determine the proton RBE 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. Clonogenic assay shows the RBE of 1.6 (10% cellular survival) which is consistent with the deter-mined RBE of 1.58 using the γ-H2AX assay. Besides, we also show that the high spatial resolution of the cassette can distinguish the minute but significant foci changes (number, area) in response to small proton radiation dose fraction. The results validate the reliability of our setup in addressing critical proton radiobiological questions.
三维打印微组织盒实现高通量质子放射生物学测定
质子在布拉格峰外扩散区(SOBP)(通常假定为 1.1)的相对生物效应(RBE)的不确定性可能会导致治疗方案不理想,并对危险器官产生不必要的毒性。在此,我们报告了一种可靠的分析方法,用于确定沿 SOBP 和远端落区的质子 RBE。三维微组织盒可在单次质子辐照后进行高通量生物检测评估,包括克隆生成检测和 γ-H2AX 检测。克隆生成检测显示 RBE 为 1.6(10% 细胞存活率),这与使用 γ-H2AX 检测得出的 RBE 1.58 相符。此外,我们还表明,盒式磁带的高空间分辨率可以分辨出微小但显著的病灶变化(数量、面积),这些变化对质子辐射剂量分数的影响很小。这些结果验证了我们的装置在解决关键质子放射生物学问题方面的可靠性。
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