大鼠吸入含有不同金属成分的热喷涂涂层颗粒对肺部的毒性、沉积和清除。

IF 3.6 3区医学 Q3 NANOSCIENCE & NANOTECHNOLOGY Nanotoxicology Pub Date : 2023-12-01 Epub Date: 2024-01-18 DOI:10.1080/17435390.2023.2297048

James M Antonini, Vamsi Kodali, Terence G Meighan, Walter McKinney, Jared L Cumpston, Howard D Leonard, James B Cumpston, Sherri Friend, Stephen S Leonard, Ronnee Andrews, Patti C Zeidler-Erdely, Aaron Erdely, Eun Gyung Lee, Aliakbar A Afshari

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引用次数: 0

摘要

热喷涂是一种将熔融金属喷射到表面的工艺。人们对这些气溶胶对健康的影响知之甚少。使用不同的消耗品[即不锈钢丝（PMET731）、镍基金属丝（PMET885）和锌基金属丝（PMET540）]，让 Sprague-Dawley 大鼠接触热喷涂过程中产生的气溶胶（25 mg/m3 × 4 小时/天 × 4 天）。对照组动物接受空气。暴露后 4 天和 30 天进行支气管肺泡灌洗，以评估肺部毒性。颗粒呈链状团块，大小相似（310-378 nm）。在两个时间点吸入 PMET885 气溶胶会导致肺损伤和炎症显著增加。吸入 PMET540 气溶胶在 4 天后会导致肺毒性轻微但显著的增加，但在 30 天后则不会。总的来说，肺部反应的顺序如下PMET885≫PMET540＞PMT731。在较短时间的暴露（25 毫克/立方米 × 4 小时/天 × 1 天）后，在暴露后 0、1、4 和 30 天，用 ICP-AES 测定不同气溶胶中金属的肺负荷。锌以最快的速度从肺部清除，在暴露后 4 天完全清除。镍、铬和锰的清除率相似，沉积金属的近一半在 4 d 前被清除。

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Lung toxicity, deposition, and clearance of thermal spray coating particles with different metal profiles after inhalation in rats.

Thermal spray coating is a process in which molten metal is sprayed onto a surface. Little is known about the health effects associated with these aerosols. Sprague-Dawley rats were exposed to aerosols (25 mg/m³ × 4 hr/d × 4 d) generated during thermal spray coating using different consumables [i.e. stainless-steel wire (PMET731), Ni-based wire (PMET885), Zn-based wire (PMET540)]. Control animals received air. Bronchoalveolar lavage was performed at 4 and 30 d post-exposure to assess lung toxicity. The particles were chain-like agglomerates and similar in size (310-378 nm). Inhalation of PMET885 aerosol caused a significant increase in lung injury and inflammation at both time points. Inhalation of PMET540 aerosol caused a slight but significant increase in lung toxicity at 4 but not 30 d. Exposure to PMET731 aerosol had no effect on lung toxicity. Overall, the lung responses were in the order: PMET885≫PMET540 >PMT731. Following a shorter exposure (25 mg/m³ × 4 h/d × 1d), lung burdens of metals from the different aerosols were determined by ICP-AES at 0, 1, 4 and 30 d post-exposure. Zn was cleared from the lungs at the fastest rate with complete clearance by 4 d post-exposure. Ni, Cr, and Mn had similar rates of clearance as nearly half of the deposited metal was cleared by 4 d. A small but significant percentage of each of these metals persisted in the lungs at 30 d. The pulmonary clearance of Fe was difficult to assess because of inherently high levels of Fe in control lungs.

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来源期刊

Nanotoxicology 医学-毒理学

CiteScore

10.10

自引率

4.00%

发文量

审稿时长

3.5 months

期刊介绍： Nanotoxicology invites contributions addressing research relating to the potential for human and environmental exposure, hazard and risk associated with the use and development of nano-structured materials. In this context, the term nano-structured materials has a broad definition, including ‘materials with at least one dimension in the nanometer size range’. These nanomaterials range from nanoparticles and nanomedicines, to nano-surfaces of larger materials and composite materials. The range of nanomaterials in use and under development is extremely diverse, so this journal includes a range of materials generated for purposeful delivery into the body (food, medicines, diagnostics and prosthetics), to consumer products (e.g. paints, cosmetics, electronics and clothing), and particles designed for environmental applications (e.g. remediation). It is the nano-size range if these materials which unifies them and defines the scope of Nanotoxicology . While the term ‘toxicology’ indicates risk, the journal Nanotoxicology also aims to encompass studies that enhance safety during the production, use and disposal of nanomaterials. Well-controlled studies demonstrating a lack of exposure, hazard or risk associated with nanomaterials, or studies aiming to improve biocompatibility are welcomed and encouraged, as such studies will lead to an advancement of nanotechnology. Furthermore, many nanoparticles are developed with the intention to improve human health (e.g. antimicrobial agents), and again, such articles are encouraged. In order to promote quality, Nanotoxicology will prioritise publications that have demonstrated characterisation of the nanomaterials investigated.