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基于同步加速器的质子和基于直线加速器的电子超高剂量率照射在急性胃肠道毒性方面的不一致性。

Discordance in acute gastrointestinal toxicity between synchrotron-based proton and linac-based electron ultra-high dose rate irradiation.

作者信息

Liu Kevin, Titt Uwe, Esplen Nolan, Connell Luke, Konradsson Elise, Yang Ming, Wang Xiaochun, Takaoka Takeshi, Li Ziyi, Koong Albert C, Mitra Devarati, Mohan Radhe, Loo Billy W, Lin Steven H, Schüler Emil

出版信息

bioRxiv. 2024 Sep 8:2024.09.04.611307. doi: 10.1101/2024.09.04.611307.

DOI:10.1101/2024.09.04.611307
PMID:39282305
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11398481/
Abstract

PURPOSE

Proton FLASH has been investigated using cyclotron and synchrocyclotron beamlines but not synchrotron beamlines. We evaluated the impact of dose rate (ultra-high [UHDR] vs. conventional [CONV]) and beam configuration (shoot-through [ST] vs. spread-out-Bragg-peak [SOBP]) on acute radiation-induced gastrointestinal toxicity (RIGIT) in mice. We also compared RIGIT between synchrotron-based protons and linac-based electrons with matched mean dose rates.

METHODS AND MATERIALS

We administered abdominal irradiation (12-14 Gy single fraction) to female C57BL/6J mice with an 87 MeV synchrotron-based proton beamline (2 cm diameter field size as a lateral beam). Dose rates were 0.2 Gy/s (S-T pCONV), 0.3 Gy/s (SOBP pCONV), 150 Gy/s (S-T pFLASH), and 230 Gy/s (SOBP pFLASH). RIGIT was assessed by the jejunal regenerating crypt assay and survival. We also compared responses to proton [pFLASH and pCONV] with responses to electron CONV (eCONV, 0.4 Gy/s) and electron FLASH (eFLASH, 188-205 Gy/s).

RESULTS

The number of regenerating jejunal crypts at each matched dose was lowest for pFLASH (similar between S-T and SOBP), greater and similar between pCONV (S-T and SOBP) and eCONV, and greatest for eFLASH. Correspondingly, mice that received pFLASH SOBP had the lowest survival rates (50% at 50 days), followed by pFLASH S-T (80%), and pCONV SOBP (90%), but 100% of mice receiving pCONV S-T survived (log-rank = 0.047 for the four groups).

CONCLUSIONS

Our findings are consistent with an increase in RIGIT after synchrotron-based pFLASH versus pCONV. This negative proton-specific FLASH effect versus linac-based electron irradiation underscores the importance of understanding the physical and biological factors that will allow safe and effective clinical translation.

摘要

目的

已使用回旋加速器和同步回旋加速器束线对质子FLASH进行了研究,但尚未使用同步加速器束线进行研究。我们评估了剂量率(超高剂量率[UHDR]与传统剂量率[CONV])和射束配置(穿透式[ST]与扩展布拉格峰[SOBP])对小鼠急性辐射诱导的胃肠道毒性(RIGIT)的影响。我们还比较了基于同步加速器的质子与基于直线加速器的电子在匹配平均剂量率下的RIGIT。

方法和材料

我们使用基于87 MeV同步加速器的质子束线(2 cm直径的射野尺寸作为侧射束)对雌性C57BL/6J小鼠进行腹部照射(单次分割12 - 14 Gy)。剂量率分别为0.2 Gy/s(ST pCONV)、0.3 Gy/s(SOBP pCONV)、150 Gy/s(ST pFLASH)和230 Gy/s(SOBP pFLASH)。通过空肠再生隐窝试验和存活率评估RIGIT。我们还比较了质子[FLASH和CONV]与电子CONV(eCONV,0.4 Gy/s)和电子FLASH(eFLASH,188 - 205 Gy/s)的反应。

结果

在每个匹配剂量下,空肠再生隐窝数量在pFLASH组中最低(ST和SOBP组相似),在pCONV组(ST和SOBP)和eCONV组中较高且相似,在eFLASH组中最高。相应地,接受pFLASH SOBP的小鼠存活率最低(50天时为50%),其次是pFLASH ST(80%)和pCONV SOBP(90%),但接受pCONV ST的小鼠100%存活(四组的对数秩检验 = 0.047)。

结论

我们的研究结果与基于同步加速器的pFLASH与pCONV相比RIGIT增加一致。这种质子特异性的FLASH负面效应与基于直线加速器的电子照射相比,凸显了理解物理和生物学因素对于安全有效的临床转化的重要性。