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从尺寸、生物溶解、细胞毒性和转移剂量角度看超声处理对颗粒分散体的影响——以镍和氧化镍颗粒为例的研究

Effects of sonication on particle dispersions from a size, biodissolution, cytotoxicity and transferred dose perspective - a case study on nickel and nickel oxide particles.

作者信息

Blomberg Eva, Wang Xuying, Herting Gunilla, Khort Alexander, Arora Abishek, Buxton Samuel, Lyons-Darden Tara, Karlsson Hanna L, Odnevall Inger

机构信息

KTH Royal Institute of Technology, School of Engineering Sciences in Chemistry, Biotechnology and Health, Department of Chemistry, Division of Surface and Corrosion Science, Stockholm, Sweden.

Institute of Environmental Medicine, Karolinska Institutet, Stockholm, Sweden.

出版信息

PLoS One. 2025 May 9;20(5):e0323368. doi: 10.1371/journal.pone.0323368. eCollection 2025.

DOI:10.1371/journal.pone.0323368
PMID:40344085
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12063897/
Abstract

The toxicity of micro- and nanoparticles in cell culture studies is influenced by factors like particle size, agglomeration, dissolution of the particles, and methodological factors like sonication protocols. The main aim of this study was to investigate the influence of sonication on the particle size, dissolution, cytotoxicity, and dosing accuracy of nickel (Ni) metal and Ni oxide (NiO) particle dispersions. Such investigations are important to enable studies on the cellular uptake of different Ni substances in lung cells. The effect of sonication was evaluated in ultrapure water, two types of cell media, and A549 human lung cells using the tip and water bath methods. Extended sonication significantly decreased particle size and increased particle dissolution, emphasizing the need for optimized sonication conditions tailored to the specific particle type and study design. Observed findings demonstrate that the sonication step potentially can have a large impact on the results due to changes in particle characteristics, size, and dissolution, properties which are highly dependent on the particle type, solution composition, and sonication parameters. Although only small differences were observed in the limited assessment of cytotoxicity (A549 cells) in this study, further investigation is required to determine the impact of sonication on toxicity. This study also emphasizes the need to evaluate transferred dose samples due to the evident effects of agglomeration, sedimentation, and losses during sample transfer of particle dispersions. The study clearly illustrates that the choice of sonication protocol is particularly critical for toxicity studies, which are the basis of government regulatory decisions and human exposure limits.

摘要

在细胞培养研究中,微米和纳米颗粒的毒性受颗粒大小、团聚、颗粒溶解等因素以及超声处理方案等方法学因素的影响。本研究的主要目的是研究超声处理对镍(Ni)金属和氧化镍(NiO)颗粒分散体的颗粒大小、溶解、细胞毒性和给药准确性的影响。此类研究对于开展不同镍物质在肺细胞中的细胞摄取研究至关重要。使用尖端超声法和水浴法在超纯水、两种细胞培养基以及A549人肺细胞中评估了超声处理的效果。长时间超声处理显著降低了颗粒大小并增加了颗粒溶解,这突出了针对特定颗粒类型和研究设计优化超声处理条件的必要性。观察结果表明,由于颗粒特性、大小和溶解的变化,超声处理步骤可能会对结果产生重大影响,而这些特性高度依赖于颗粒类型、溶液组成和超声处理参数。尽管在本研究对细胞毒性(A549细胞)的有限评估中仅观察到微小差异,但仍需要进一步研究以确定超声处理对毒性的影响。本研究还强调,由于颗粒分散体在样品转移过程中存在明显的团聚、沉降和损失影响,因此需要评估转移剂量样品。该研究清楚地表明,超声处理方案的选择对于毒性研究尤为关键,而毒性研究是政府监管决策和人体暴露限值的基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/953e/12063897/c575ef91c434/pone.0323368.g010.jpg
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