Transported desert dust particles (TDDP) are soil particles suspended in the air. Being spread all over the globe by the winds, TDDP affect animals, including humans, plants and other organisms not only in the areas of their emission. In humans, TDDP are responsible for diseases of the respiratory (e.g. asthma) and circulatory (e.g. heart failure) systems and they also act directly on the epithelium and its mucus layer after deposition in the mouth and respiratory system. The aim of the study was to determine the influence of TDDP on the rheology of mucus and saliva, and thus on their functioning. The artificial mucus and saliva, as well as Arizona TDDP, were used in experiments. The rheological properties of TDDP were determined with the use of an oscillatory rheometer, at various temperatures and in the presence of different amount of TDDP. Moreover, the diffusion time of the marker (rhodamine B) throughout mucus with desert dust particles was examined. The obtained results demonstrate that the presence of TDDP in the saliva and mucus model increases their apparent viscosity. The concentration of particles is positively correlated with the increase of viscosity. However, it has not been demonstrated that the presence of TDDP in mucus significantly influenced the diffusion of a fluorescent marker throughout the mucus. The presence of TDDP in the saliva and mucus may interfere with their moisturising function, and cause difficulties in swallowing by increasing the viscosity of mucus and saliva. Moreover, increased viscosity of mucus may cause problems with its ability to pass to the upper respiratory tracts, which may lead to a general discomfort or local inflammation.
The level of air pollution by nano and microparticles raises rapidly. One of the methods of human exposure to nanoparticles is through inhalation. Indoor environments contain airborne plastic particles, primarily from synthetic textiles, leading to unintended inhalation or occupational exposure. In outdoor environments, exposure could happen through breathing in contaminated aerosols from ocean waves or airborne fertilizer particles from dried wastewater treatments. Airborne particles affect human health in various ways and they also act directly on the epithelium and its mucus layer after deposition in the mouth and respiratory system. Exposure via ingestion to microplastics present in the various environmental compartments may occur either directly or indirectly via the food chain or drinking water. The aim of the study was to determine the influence of plastic microparticles on the rheology of mucus and saliva, and thus on their functioning. The artificial mucus and saliva, as and plastic nanoparticles (namely PS – polystyrene and PE - polyethylene) were used in experiments. The rheological properties of saliva and mucus were determined with the use of an oscillatory rheometer, at various temperatures (namely 36.6 C and 40 C, what corresponds to the case of healthy and ill human) The results were compared with those obtained for pure saliva and mucus. The influence of the presence of the particles on the parameters of the constituitive viscosity equations was studied. The presence of plastic micro- and nanoparticles in the saliva and mucus may interfere with their physiological functions.
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