Comparison of the dosimetry and cell survival effect of 177Lu and 161Tb somatostatin analog radiopharmaceuticals in cancer cell clusters and micrometastases.

IF 3 2区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING EJNMMI Physics Pub Date : 2024-11-13 DOI:10.1186/s40658-024-00696-2
Laura De Nardo, Sara Santi, Anna Dalla Pietà, Guillermina Ferro-Flores, Erika Azorín-Vega, Emma Nascimbene, Vito Barbieri, Alessandra Zorz, Antonio Rosato, Laura Meléndez-Alafort
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引用次数: 0

Abstract

Background: 177Lu-based radiopharmaceuticals (RPs) are the most used for targeted radionuclide therapy (TRT) due to their good response rates. However, the worldwide availability of 177Lu is limited. 161Tb represents a potential alternative for TRT, as it emits photons for SPECT imaging, β--particles for therapy, and also releases a significant yield of internal conversion (IE) and Auger electrons (AE). This research aimed to evaluate cell dosimetry with the MIRDcell code considering a realistic localization of three 161Tb- and 177Lu-somatostatin (SST) analogs in different subcellular regions as reported in the literature, various cell cluster sizes (25-1000 µm of radius) and percentage of labeled cells. Experimental values of the α- and β-survival coefficients determined by external beam photon irradiation were used to estimate the survival fraction (SF) of AR42J pancreatic cell clusters and micrometastases.

Results: The different localization of RPs labeled with the same radionuclide within the cells, resulted in only slight variations in the dose absorbed by the nuclei (ADN) of the labeled cells with no differences observed in either the unlabeled cells or the SF. ADN of labeled cells (MDLC) produced by 161Tb-RPs were from 2.8-3.7 times higher than those delivered by 177Lu-RPs in cell clusters with a radius lower than 0.1 mm and 10% of labeled cells, due to the higher amount of energy emitted by 161Tb-disintegration in form of IE and AE. However, the 161Tb-RPs/177Lu-RPs MDLC ratio decreased below 1.6 in larger cell clusters (0.5-1 mm) with > 40% labeled cells, due to the significantly higher 177Lu-RPs cross-irradiation contribution. Using a fixed number of disintegrations, SFs of 161Tb-RPs in clusters with > 40% labeled cells were lower than those of 177Lu-RPs, but when the same amount of emitted energy was used no significant differences in SF were observed between 177Lu- and 161Tb-RPs, except for the smallest cluster sizes.

Conclusions: Despite the emissions of IE and AE from 161Tb-RPs, their localization within different subcellular regions exerted a negligible influence on the ADN. The same cell damage produced by 177Lu-RPs could be achieved using smaller quantities of 161Tb-RPs, thus making 161Tb a suitable alternative for TRT.

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比较 177Lu 和 161Tb 体生长抑素类似物放射性药物在癌细胞簇和微转移中的剂量测定和细胞存活效果。
背景:基于 177Lu 的放射性药物(RPs)因其良好的反应率而成为放射性核素靶向治疗(TRT)中最常用的药物。然而,全球范围内 177Lu 的供应有限。161Tb是TRT的潜在替代品,因为它能发射用于SPECT成像的光子和用于治疗的β粒子,还能释放大量的内部转换(IE)和欧杰电子(AE)。这项研究旨在利用 MIRDcell 代码评估细胞剂量学,考虑到文献报道的三种 161Tb 和 177Lu 索马托司他汀(SST)类似物在不同亚细胞区域的实际定位、各种细胞簇大小(半径 25-1000 微米)和标记细胞的百分比。通过外束光子照射确定的α和β-存活系数的实验值用于估算AR42J胰腺细胞簇和微转移的存活率(SF):结果:用相同放射性核素标记的RPs在细胞内的定位不同,导致标记细胞核吸收的剂量(ADN)仅略有不同,未标记细胞和SF均无差异。在半径小于 0.1 毫米和有 10% 标记细胞的细胞簇中,161Tb-RPs 产生的标记细胞核吸收剂量(MDLC)是 177Lu-RPs 的 2.8-3.7 倍,这是因为 161Tb 分解以 IE 和 AE 形式释放的能量较高。然而,在较大的细胞簇(0.5-1 毫米)中,161Tb-RPs/177Lu-RPs MDLC 比值下降到 1.6 以下,其中标记细胞的比例大于 40%,这是因为 177Lu-RPs 交叉辐照的贡献明显更高。在使用固定的崩解次数时,161Tb-RPs 在标记细胞数大于 40% 的细胞簇中的 SF 值低于 177Lu-RPs,但在使用相同的发射能量时,177Lu-RPs 和 161Tb-RPs 的 SF 值没有明显差异,只有最小细胞簇除外:结论:尽管 161Tb-RPs 发射了 IE 和 AE,但它们在不同亚细胞区域的定位对 ADN 的影响微乎其微。使用较少数量的 161Tb-RPs 也能产生与 177Lu-RPs 相同的细胞损伤效果,因此 161Tb 是 TRT 的合适替代品。
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
EJNMMI Physics
EJNMMI Physics Physics and Astronomy-Radiation
CiteScore
6.70
自引率
10.00%
发文量
78
审稿时长
13 weeks
期刊介绍: EJNMMI Physics is an international platform for scientists, users and adopters of nuclear medicine with a particular interest in physics matters. As a companion journal to the European Journal of Nuclear Medicine and Molecular Imaging, this journal has a multi-disciplinary approach and welcomes original materials and studies with a focus on applied physics and mathematics as well as imaging systems engineering and prototyping in nuclear medicine. This includes physics-driven approaches or algorithms supported by physics that foster early clinical adoption of nuclear medicine imaging and therapy.
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