The use of LA-ICP-MS as an auxiliary tool to assess the pulmonary toxicity of molybdenum(IV) sulfide (MoS₂) nano- and microparticles.

IF 1.4 4区医学 Q3 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH International journal of occupational medicine and environmental health Pub Date : 2024-03-05 Epub Date: 2023-12-01 DOI:10.13075/ijomeh.1896.02305

Renata Kuraś, Maciej Stępnik, Katarzyna Domeradzka-Gajda, Beata Janasik

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引用次数: 0

Abstract

Objectives: Laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) has considerable applicative potential for both qualitative and quantitative analyses of elemental spatial distribution and concentration. It provides high resolutions at pg-level detection limits. These qualities make it very useful for analyzing biological samples. The present study responds to the growing demand for adequate analytical methods which would allow to assess the distribution of nanostructured molybdenum(IV) disulfide (MoS₂) in organs. It was also motivated by an apparent lack of literature on the biological effects of MoS₂ in living organisms. The study was aimed at using LA-ICP-MS for comparing micro- and nanosized MoS₂ ditribution in selected rat tissue samples (lung, liver, brain and spleen tissues) after the intratracheal instillation (7 administrations) of MoS₂ nano- and microparticles vs. controls.

Material and methods: The experimental study, approved by the Ethics Committee for Animal Experiments was performed using albino Wistar rats. This was performed at 2-week intervals at a dose of 5 mg/kg b.w., followed by an analysis after 90 days of exposure. The MoS₂ levels in control tissues were determined with the laser ablation system at optimized operating conditions. The parameter optimization process for the LA system was conducted using The National Institute of Standards and Technology (NIST) glass standard reference materials.

Results: Instrument parameters were optimized. The study found that molybdenum (Mo) levels in the lungs of microparticle-exposed rats were higher compared to nanoparticle-exposed rats. The opposite results were found for liver and spleen tissues. Brain Mo concentrations were below the detection limit.

Conclusions: The LA-ICP-MS technique may be used as an important tool for visualizing the distribution of Mo on the surface of soft samples through quantitative and qualitative elemental mapping. Int J Occup Med Environ Health. 2024;37(1):18-33.

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使用LA-ICP-MS作为辅助工具评估钼(IV)硫化(MoS2)纳米和微粒的肺毒性。

目的:激光烧蚀电感耦合等离子体质谱(LA-ICP-MS)在定性和定量分析元素空间分布和浓度方面具有相当大的应用潜力。它在pg级检测限下提供高分辨率。这些特性使它在分析生物样品时非常有用。目前的研究响应了对足够的分析方法的日益增长的需求，这些方法将允许评估纳米结构钼(IV)二硫化物(MoS2)在器官中的分布。这也是由于缺乏关于二硫化钼在生物体中的生物效应的文献。本研究旨在利用LA-ICP-MS比较经气管内注射(7次给药)纳米和微粒二硫化钼与对照组相比，在选定的大鼠组织样本(肺、肝、脑和脾组织)中微纳米二硫化钼的分布。材料与方法:本实验采用白化Wistar大鼠，经动物实验伦理委员会批准。以5 mg/kg b.w.的剂量每隔2周进行一次试验，暴露90天后进行分析。在优化的操作条件下，用激光烧蚀系统测定对照组织中的二硫化钼水平。采用美国国家标准与技术研究院(NIST)玻璃标准参考物质对LA系统进行了参数优化过程。结果:优化了仪器参数。该研究发现，与暴露于纳米颗粒的大鼠相比，暴露于微颗粒的大鼠肺部的钼(Mo)水平更高。肝和脾组织则相反。脑钼浓度低于检出限。结论:LA-ICP-MS技术可以作为一种重要的工具，通过定量和定性的元素映射来可视化软质样品表面Mo的分布。中华医学杂志，2009;37(1)。

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来源期刊

International journal of occupational medicine and environmental health PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-

CiteScore

3.40

自引率

5.00%

发文量

审稿时长

7.5 months

期刊介绍： The Journal is dedicated to present the contemporary research in occupational and environmental health from all over the world. It publishes works concerning: occupational and environmental: medicine, epidemiology, hygiene and toxicology; work physiology and ergonomics, musculoskeletal problems; psychosocial factors at work, work-related mental problems, aging, work ability and return to work; working hours, shift work; reproductive factors and endocrine disruptors; radiation, ionizing and non-ionizing health effects; agricultural hazards; work safety and injury and occupational health service; climate change and its effects on health; omics, genetics and epigenetics in occupational and environmental health; health effects of exposure to nanoparticles and nanotechnology products; human biomarkers in occupational and environmental health, intervention studies, clinical sciences’ achievements with potential to improve occupational and environmental health.