Comparison of Lugol’s solution and Fe3O4 nanoparticles as contrast agents for tumor spheroid imaging using microcomputed tomography

IF 1.2 Q3 Computer Science Bio-Algorithms and Med-Systems Pub Date : 2022-12-01 DOI:10.2478/bioal-2022-0084
D. Panek, M. Szczepanek, B. Leszczyński, P. Moskal, E. Stępień
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引用次数: 1

Abstract

Background Lugol’s solution is well known for its unique contrasting properties to biological samples in in microcomputed tomography imaging. On the other hand, iron oxide nanoparticles (IONPs), which have much lower attenuation capabilities to X-ray radiation show decent cell penetration and accumulation properties, are increasingly being used as quantitative contrast agents in biology and medicine. In our research, they were used to stain 3D cell structures called spheroids. Aim In this study, the micro computed tomography (µCT) technique was used to visualize and compare the uptake and accumulation of two contrast agents, Lugol’s solution and iron (II, III ) oxid e nanoparticles (IONPs) in the in vitro human spheroid tumour model. Methods The metastatic human melanoma cell line WM266-4 was cultured, first under standard 2D conditions, and after reaching 90% confluence cells was seeded in a low adhesive plate, which allows spheroid formation. On the 7th day of growth, the spheroids were transferred to the tubes and stained with IONPs or Lugol’s solution and subjected to µCT imaging. Results Our research allows visualization of the regions of absorption at the level of single cells, with relatively short incubation times - 24h - for Lugol’s solution. IONPs proved to be useful only in high concentrations (1 mg/ml) and long incubation times (96h). Conclusions When comparing the reconstructed visualizations of the distribution of these stating agents, it is worth noting that Lugol’s solution spreads evenly throughout the spheroids, whereas IONPs (regardless of their size 5 and 30 nm) accumulate only in the outer layer of the spheroid structure.
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Lugol溶液和Fe3O4纳米粒子作为肿瘤球体成像造影剂的比较
背景Lugol的解决方案以其在微计算机断层扫描成像中与生物样本的独特对比特性而闻名。另一方面,氧化铁纳米颗粒(IONP)对X射线辐射的衰减能力要低得多,表现出良好的细胞穿透和积累特性,越来越多地被用作生物学和医学中的定量造影剂。在我们的研究中,它们被用于对称为球体的3D细胞结构进行染色。目的在本研究中,使用微计算机断层扫描(µCT)技术对两种造影剂Lugol溶液和氧化铁纳米颗粒(IONP)在体外人类球体肿瘤模型中的摄取和积聚进行可视化和比较。方法首先在标准2D条件下培养转移性人黑色素瘤细胞系WM266-4,在达到90%融合后,将细胞接种在低粘附板中,使其形成球体。在生长的第7天,将球体转移到试管中,用IONP或Lugol溶液染色,并进行µCT成像。结果我们的研究允许在单细胞水平上显示吸收区域,Lugol溶液的孵育时间相对较短,为24小时。IONP仅在高浓度(1 mg/ml)和长孵育时间(96小时)下有效。结论当比较这些陈述剂分布的重建可视化时,值得注意的是,Lugol溶液在整个球体中均匀分布,而IONP(无论其大小为5和30nm)仅在球体结构的外层积累。
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来源期刊
Bio-Algorithms and Med-Systems
Bio-Algorithms and Med-Systems MATHEMATICAL & COMPUTATIONAL BIOLOGY-
CiteScore
3.80
自引率
0.00%
发文量
3
期刊介绍: The journal Bio-Algorithms and Med-Systems (BAMS), edited by the Jagiellonian University Medical College, provides a forum for the exchange of information in the interdisciplinary fields of computational methods applied in medicine, presenting new algorithms and databases that allows the progress in collaborations between medicine, informatics, physics, and biochemistry. Projects linking specialists representing these disciplines are welcome to be published in this Journal. Articles in BAMS are published in English. Topics Bioinformatics Systems biology Telemedicine E-Learning in Medicine Patient''s electronic record Image processing Medical databases.
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