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Characterization of Toxicity of Airborne ENMs using Direct in Vitro Exposure

使用直接体外暴露表征空气中 ENM 的毒性

基本信息

批准号：
10216264
负责人：
Arantzazu Eiguren Fernandez
金额：
$ 49.82万
依托单位：
AEROSOL DYNAMICS, INC.
依托单位国家：
美国
项目类别：
财政年份：
2019
资助国家：
美国
起止时间：
2019-05-01 至 2023-06-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10216264
关键词：
Address Aerosols Air Analysis of Variance Area Biological Biological Assay Biological Monitoring Breathing Carbon Nanotubes Cell Culture Techniques Cell Line Cell Survival Cells Cellular Stress Characteristics Chemicals Coculture Techniques Complex Copper Cosmetics Cultured Cells Data Reporting Deposition Development Devices Dimensions Disease Dose Drug Delivery Systems Electronics Engineering Epithelial Cells Exposure to Health Human Immune In Situ In Vitro Individual Industry Inhalation Device Injury Knowledge Laboratories Lead Length Life Liquid substance Lung Measurement Measures Methods Monitor Occupational Oxides Particle Size Performance Phase Physiological Policies Property Reproducibility Risk Safety Sampling Semiconductors Small Business Innovation Research Grant Spottings Statistical Data Interpretation Structure Sunscreening Agents Surface System Technology Testing Time Toxic effect Toxicology Uncertainty United States National Institutes of Health Welding Workplace aerosolized biological systems chemical property community setting consumer product cost experimental study improved in vitro Assay inflammatory marker instrument man monolayer nanomaterials nanoparticle novel novel strategies particle physical property portability prototype response sensor tool toxicant

项目摘要

Project Summary In the last decade, the use of engineered nanomaterials (NMs) (man-made materials with at least one dimension < 100 nm) has exponentially increased with their incorporation into new or developing technologies. More industries are using these NMs as components of sunscreens and cosmetics, drug delivery systems, structural materials, semiconductors, and sensors, as a result of their enhanced properties (strength, stiffness, electrical characteristics, and chemical and biological reactivity). However, these beneficial characteristics may also confer other detrimental properties once in contact with biological systems. Even though the number of NMs entering the market is increasing every year, there is a lack of information regarding the degree and conditions in which workers and consumers are exposed to these nanomaterials. Needed is a means to rapidly and reliably assess the toxicological properties of the increasing number of NMs, and to do so in a manner that can provide physiologically relevant toxicological information. Our project addresses this need with a novel approach for the direct exposure of air-liquid interface (ALI) cell cultures, both as monolayer and more complex cultures, to airborne NMs. Our approach is shown to be efficient and reproducible, providing results in minimal exposure times, even under environmentally realistic conditions. This project will carry this approach forward to provide a robust, versatile and compact device for exposing ALI cell cultures to aerosolized NMs. Together with rapid development of new methods and assays to cheaply and rapidly asses the biological effects of toxicants, our device will provide a new tool to study the mechanisms by which exposure to airborne NMs may lead to injury and/or disease, and improve our ability to examine and predict possible mechanisms of action of NMs.

项目摘要在过去的十年中，工程纳米材料(NMS)的使用(人造材料至少有一个尺寸)随着它们融入新技术或开发中的技术而呈指数级增长。越来越多的行业正在使用这些NMS作为防晒霜和化妆品的成分，药物输送系统，结构材料、半导体和传感器，由于其增强的性能(强度、刚度、电学特性以及化学和生物反应性)。然而，这些有益的特征可以一旦与生物系统接触，还会产生其他有害特性。即使这一数字进入市场的网民每年都在增加，缺乏关于学位和工人和消费者接触这些纳米材料的条件。需要一种手段来快速和可靠地评估越来越多的 NMS，并以一种能够提供生理相关毒理学信息的方式这样做。我们的项目通过一种直接暴露气-液界面(ALI)细胞培养的新方法来满足这一需求作为单层和更复杂的培养物，到空气中的NMS。我们的方法被证明是有效的和可重复性，即使在环境现实的条件下，也能在最短的暴露时间内提供结果。这项目将继续推广这一方法，提供一种坚固、通用和紧凑的设备来暴露ALI细胞培养到雾化NMS。加上快速发展的新方法和分析方法，以廉价和为了快速评估毒物的生物效应，我们的设备将提供一个新的工具，通过接触空气中的NMS可能会导致伤害和/或疾病，并提高我们的检查和预测NMS可能的作用机制。