Особенности функции легких при профессиональной хронической обструктивной болезни легких в условиях воздействия аэрозолей, содержащих наночастицы

Abstract

Abstract: Despite decrease in industrial aerosol impact on workers’ health there are disproportionately high prevalence of occupational lung diseases. So, it is of interest to investigate the role of nanoparticles. Objective was to establish lung function features in subjects with occupational chronic obstructive pulmonary disease (COPD) exposed to aerosols containing nanoparticles. Methods. It was a cross-sectional observational study. Subjects with occupational COPD (GOLD 2011-2021 criteria) exposed to aerosols containing metal (n=26) or silica nanoparticles (n=24) enrolled. Comparison group – tobacco smokers with COPD (n=50). Nanoparticles at workplaces air were measured by inductively coupled plasma atomic emission spectrometry and by scanning electron microscopy. Groups were matched by gender, age, COPD duration. Results. Occupational COPD in conditions of metal nanoparticles exposure was characterized by severe airflow limitation – forced expiratory volume in one second (FEV1) was 38%(35%;42%), by prominent increase in lung volumes – functional residual capacity (FRC) was 192% (184%;203%) and by highest decrease in diffusing lung capacity for carbon monoxide (DLco/Va), 34% (31%;38%). In occupational COPD subjects exposed to silica nanoparticles mild airflow limitation, mild increase in lung volumes and substantial decrease in DLco/Va, were seen. In logistic regression model metal nanoparticles mass concentration was associated with DLco/Va, FRC, FEV1, Raw and silica nanoparticles mass concentration – with DLco and FEV1. Conclusion. Nanoparticles in industrial aerosols are associated with occupational COPD phenotype.