Distribution of micro-sized range solid particles in the human airways: field experiment

N. Zaitseva, D. Kiryanov, S. Kleyn, M. Tsinker, A. Andrishunas
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Abstract

Introduction. Ambient air pollution is a widespread and pressing issue. This necessitates the development of methods for estimating and predicting progression of pathologies on the base of evolutionary mathematical models. Adaptation of the theoretical model to practice requires identification and verification procedures in real conditions of contamination of inhaled air with dust particles of various compositions. The purpose of the work was to investigate regularities of distribution of dust particles with a different disperse, component and morphological structure in the human airways after inhalation from ambient air. The study involved performing a field experiment. Materials and methods. We accomplished several investigations in 3 zones with different levels and structures of ambient air pollution. Disperse, component, and morphological structures of particles occurring in ambient (inhaled), deposited in various sections of the human airways, in exhaled air and blood were examined by electronic microscopy. Results. Air quality in zones 1 and 2 did not comply with hygienic standards for suspended particles, PM10, PM2.5, metal compounds, etc. (up to 3.29 MPCm.s., 3.2 MPCav.s., 2.91 MPCav.y.) and formed increased hazard quotient for manganese, copper, nickel and their compounds, inorganic fluorides, suspended particles (up to 5.48 HQac, 3.42 HQch), respiratory and other hazard indices (up to 5.48 HIac, 8.59 HIch). The degree of sedimentation of small particles (PM2.5 or less) in different parts of the respiratory tract is uneven, they are able to penetrate into the lower airways and lungs of humans. More than 65% of all the particles deposited in the upper airways had a diameter bigger than 10 µm. PM2.5 accounted for more than 60 % in sputum in the lower airways and the share of PM1.5 reached 46.7 %. Particles smaller than 1.5 μm (90.5%) were predominantly recorded in blood biosubstrates, of which up to 88.1% of the particles had a sphericity of 0.9–1.0. Limitations. Limited degree of precision of location of the examined sections in the respiratory system. Conclusion. Common deposition regularities are mostly determined by sizes and morphology of dust particles. The component structure of inhaled air has practically no effects on regularities of particle deposition in various sections of the respiratory system; however, it can have substantial influence on types of pathologies progressing in the body. High shares of PM1.5 identified in inhaled air, the lower airways and blood require considering levels of PM1.5 and smaller particles in ambient air in settlements to be covered by hygienic standards. In future, the study results will be used in numeric modelling of accumulation of functional respiratory disorders and associated pathologies of other organs and systems and in predicting development of pathologies based on evolution mathematical models.
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人体气道中微尺度固体颗粒的分布:现场实验
介绍环境空气污染是一个普遍而紧迫的问题。这就需要在进化数学模型的基础上开发用于估计和预测病理进展的方法。为了使理论模型适应实际,需要在吸入空气中各种成分的灰尘颗粒污染的真实条件下进行识别和验证程序。本工作的目的是研究从环境空气中吸入不同分散性、成分和形态结构的灰尘颗粒在人体气道中的分布规律。这项研究包括进行实地实验。材料和方法。我们在3个不同环境空气污染水平和结构的区域完成了几项调查。通过电子显微镜检查了环境(吸入)中颗粒的分散、成分和形态结构,这些颗粒沉积在人类气道的各个部分、呼出的空气和血液中。后果1区和2区的空气质量不符合悬浮颗粒物、PM10、PM2.5、金属化合物等的卫生标准(高达3.29 MPCm.s.、3.2 MPCav.s.、2.91 MPCav.y.),锰、铜、镍及其化合物、无机氟化物、悬浮颗粒物的危险系数增加(高达5.48 HQac、3.42 Hch.),呼吸和其他危险指数(高达5.48 HIac、8.59 HIch)。小颗粒物(PM2.5或更低)在呼吸道不同部位的沉积程度是不均匀的,它们能够渗透到人类的下呼吸道和肺部。沉积在上呼吸道的所有颗粒中,超过65%的颗粒直径大于10µm。PM2.5在下呼吸道痰液中所占比例超过60%,PM1.5所占比例达到46.7%。小于1.5μm(90.5%)的颗粒主要记录在血液生物基质中,其中高达88.1%的颗粒的球形度为0.9–1.0。局限性呼吸系统中检查部位的定位精度有限。结论常见的沉积规律主要由尘粒的大小和形态决定。吸入空气的成分结构实际上对呼吸系统各部分颗粒沉积的规律没有影响;然而,它可以对身体内的病理类型产生重大影响。在吸入空气、下呼吸道和血液中发现的高比例PM1.5需要考虑定居点环境空气中的PM1.5和较小颗粒物的水平,以纳入卫生标准。未来,研究结果将用于功能性呼吸系统疾病和其他器官和系统相关病理的积累的数字建模,以及基于进化数学模型预测病理的发展。
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来源期刊
Gigiena i sanitariia
Gigiena i sanitariia Environmental Science-Pollution
CiteScore
0.80
自引率
0.00%
发文量
192
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