在氯化钠基质中沉积的磁铁矿纳米颗粒及其功能化类似物在红细胞中的细胞毒性

Q2 Pharmacology, Toxicology and Pharmaceutics
Stanislav Lytvyn , Elena Vazhnichaya , Yurii Kurapov , Oleksandr Semaka , Lyubov Babijchuk , Pavlo Zubov
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引用次数: 0

摘要

包覆纳米颗粒的合成为生物医学应用材料提供了新的性能。这完全适用于氧化铁纳米颗粒。本研究的目的是研究电子束技术合成的磁铁矿纳米颗粒的特性,并对其功能化和细胞毒性进行研究。采用标准方法测定纳米颗粒的特性。采用红细胞模型研究纳米颗粒的细胞毒性。结果表明,氯化钠基体中的原始磁铁矿纳米颗粒可被聚乙烯吡咯烷酮和琥珀酸乙基甲基羟吡啶(抗氧化剂)功能化。所有研究的纳米颗粒在浓度高达100 μg Fe/ml时对红细胞无毒。在100 ~ 200 μg Fe/ml浓度下,细胞外膜表达磷脂酰丝氨酸的细胞数量增加,红细胞病理形态和溶血数量增加。如果纳米系统中含有抗氧化剂,这些现象就不那么明显了。因此,可以通过电子束技术获得磁铁矿纳米颗粒并进行功能化,形成无毒的纳米体系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cytotoxicity of magnetite nanoparticles deposited in sodium chloride matrix and their functionalized analogues in erythrocytes

The synthesis of covered nanoparticles provides new properties to the materials for biomedical applications. This fully applies to iron oxide nanoparticles. The research aim was to study features of the magnetite nanoparticles synthesized by electron beam technology as well as to investigate their functionalization and cytotoxicity. Nanoparticle characteristics were determined by standard methods. Cytotoxiciy of nanoparticles was studied using erythrocyte model. It was shown that the original magnetite nanoparticles in the sodium chloride matrix can be functionalized with polyvinylpyrrolidone and ethylmethylhydroxypyridine succinate, an antioxidant. All investigated nanoparticles were non-toxic for erythrocytes at concentrations up to 100 μg Fe/ml. At 100-200 μg Fe/ml, they increased the amount of cells expressing phosphatidylserine on the outer membrane, the count of pathological forms of erythrocytes and hemolysis. These phenomena were less pronounced if the nanosystem included the antioxidant. Therefore, magnetite nanoparticles can be obtained by electron beam technology and functionalized to form non-toxic nanosystems.

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来源期刊
OpenNano
OpenNano Medicine-Pharmacology (medical)
CiteScore
4.10
自引率
0.00%
发文量
63
审稿时长
50 days
期刊介绍: OpenNano is an internationally peer-reviewed and open access journal publishing high-quality review articles and original research papers on the burgeoning area of nanopharmaceutics and nanosized delivery systems for drugs, genes, and imaging agents. The Journal publishes basic, translational and clinical research as well as methodological papers and aims to bring together chemists, biochemists, cell biologists, material scientists, pharmaceutical scientists, pharmacologists, clinicians and all others working in this exciting and challenging area.
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