Experimental study of the possibility of topical application of polyvinylpyrrolidone for epistaxis

Nasal packing is widely used in patients with epistaxis, especially in cases where it is impossible to electrocoagulate the bleeding vessel. The disadvantages of gauze packing are well known. First of all, this is the risk of recurrent bleeding after removing the tampons from the nose. The cause of recurrent epistaxis is the activation of local fibrinolysis during prolonged stay of the tampon in the nasal cavity. To overcome this drawback, we have proposed the topical application of polyvinylpyrrolidone (PVP). In an experiment on animals, the absence of a damaging effect of PVP on mucociliary transport was proved.

Dysfunction of the mucous membrane in the pathogenesis of chronic diseases of the nasal cavity

Performing not only respiratory, but also protective, olfactory, aesthetic and a number of other functions, the nose is an important part of the upper respiratory tract. The mucous membrane of the nasal cavity is the first protective barrier of the body that protects against the effects of adverse environmental factors, carrying out warming, purification and neutralization of the inhaled air. This mission is provided by the activity of the multilayered columnar ciliated epithelium, consisting of three main types of cells: ciliate, goblet and basal. The main protective mechanism in the nasal cavity is mucociliary clearance, carried out by means of nasal mucus and beating of cilia unidirectional towards the nasopharynx with a frequency of up to 1000 per minute. Violation of the integrity and disruption of the physiological functions of the mucous membrane of the nasal cavity leads to the development of pathological processes, which in turn can lead to a failure in the work of other organs and systems of the body. To date, about 16-18% of all diseases of the ENT organs are chronic forms of rhinitis. According to the ICAR classification, which is based on the pathophysiological mechanisms of the development of rhinitis, allergic and non-allergic forms are distinguished. Common to various forms is the effect of certain factors on the mucous membrane of the nasal cavity and, as a consequence, a violation of the mechanisms of its work.One of the forms of chronic rhinitis, caused by thinning of the mucous membrane and severe disorders of mucociliary transport, is atrophic rhinitis. The main symptoms of the disease are dryness, the formation of crusts in the nasal cavity, periodic bleeding. The approach to the treatment of acute and chronic processes against the background of atrophic changes in the nasal cavity should be comprehensive and aimed at restoring the physiological functions of the mucous membrane and the mechanisms of mucociliary transport.

MUCORMYCOSI (BLACK FUNGUS): A REVIEW

Mucormycosis is a new angioinvasive infection caused by the ubiquitous filamentous fungus of the Mucorales order of the Zygomycete class. Mucormycosis has emerged as the third most prevalent invasive mycosis in patients undergoing hematological and allogeneic stem cell transplantation, following candidiasis and aspergillosis. Sporangiospores must be inhaled on a daily basis. Members of the Mucorales are very infrequent in nasal mucus, indicating that spores in airway mucus are removed via mucociliary transport or that there is a minimal degree of airborne contamination.

A Quantitative Interspecies Comparison of The Respiratory Mucociliary Clearance Mechanism

Background: Collectively coordinated ciliary activity constantly propels the airway surface liquid, which lines the luminal surface of the vertebrate respiratory system, in cranial direction – constituting mucociliary clearance, the primary defence mechanism of our airways. Our contemporary understanding on how the quantitative characteristics of the metachronal wave field determines the resulting mucociliary transport is still limited, which is partly due to the sparse availability of quantitative observational data. Methods: We employed high-speed video reflection contrast microscopy to simultaneously image and quantitatively characterize the metachronal wave field as well as the mucociliary transport in excised bovine, porcine, ovine, lapine, turkey and ostrich samples of the luminal tracheal wall. Advanced image processing techniques were used to determine the ciliary beating frequency (CBF), the velocity and the wavelength of the metachronal wave as well as the mucociliary transport velocity. Results: The mucociliary transport direction was found to strongly correlate with the mean wave propagation direction in all six species. The CBF yielded similar values (10−15 Hz) for all six species. Birds were found to exhibit considerably higher transport speeds (130−260 μm/s) than mammals (20−80 μm/s). While the average transport direction significantly deviates from the tracheal long axis (TLA) in mammals, no significant deviation from the TLA was found in birds. In comparison to mammals, longer metachronal wavelengths were found in birds. Finally, the metachronal waves were found to propagate at about 4−8 times the speed of mucociliary transport in mammals, whereas the metachronal waves propagate at about the speed of mucociliary transport in birds. Conclusions: The tracheal mucociliary clearance mechanism is based on a symplectic metachronsim in all examined species. The mucociliary transport in birds is fast and roughly follows the TLA, whereas the transport is slower and proceeds along a left-handed spiral in mammals. The longer wavelengths and the lower ratio between the metachronal wave speed and the mucociliary transport speed provide further evidence that the mucociliary clearance mechanism operates differently in birds than in mammals.

Effects of BNO 1016 on ciliary transport velocity and cell culture surface liquid height of sinonasal epithelial cultures

Background BNO 1016 is an ethanolic extract of a mixture of five herbs that has been sold in different formulations for decades in the European market and more recently, in the United States market as an over-the-counter treatment for rhinosinusitis. Previous studies indicated activation of chloride secretion and increase in ciliary beat frequency by BNO 1016 but the functional consequences on mucociliary transport velocity and airway surface liquid homeostasis are unknown. This study intends to examine the effects of BNO 1016 on these properties in vitro. Results Human sinonasal epithelial cells were grown at an air-liquid interface, with addition of BNO 1016 basolaterally in each experiment. Polystyrene fluorescent microspheres were added to the apical surface of the culture, and distance traveled across the surface of the culture over a fixed time period was measured using live imaging. BNO 1016 concentrations of 50 μg/ml and 500 μg/ml were tested. Basolateral application of compound resulted in a non-dose-dependent increase in culture surface liquid height compared to controls at 30 min, and this effect persisted through the one-hour duration of the experiment (p < 0.01). Basolateral application of BNO 1016 also resulted in a non-dose-dependent increase in microsphere transport velocity at 45 and 60 min following compound application (p < 0.01). Conclusions Basolateral application of BNO 1016 at a concentration mimicking post-ingestion serum levels appears to elicit increases in cell culture surface liquid height and mucociliary clearance, as assessed by microsphere transport velocity. These properties can potentially be leveraged for therapeutic efficacy in diseases affecting mucus production and mucociliary transport.

Rapid changes in mucociliary transport in the tracheal epithelium caused by unconditioned room air or nebulized hypertonic saline and mannitol are not determined by frequency of beating cilia

Background Inspired air is heated and humidified in the nose before it reaches lower airways. This mechanism is bypassed during tracheostomy, directly exposing the airways to colder and drier air from the environment, known to negatively affect mucociliary transport; however, little is known about how quickly mucociliary transport deteriorates. This study determines the short-term effect of flowing room air and nebulized hypertonic saline and mannitol on mucociliary transport in the trachea. In an ovine perfused in vitro tracheal model (N = 9) the epithelium was exposed to 25 L/min of flow, heated to lamb body temperature (38 °C) and fully saturated with water vapor as the control, followed by either room air (22 °C and 50% relative humidity) or nebulized solutions of NaCl 7% and mannitol 20% up to 1 min for a short duration, until mucociliary transport had visually changed. Mucus transport velocity (MTV) and cilia beat frequency (CBF) were continuously measured with video-microscopy. Results Exposing the tracheal epithelium to air heated to body temperature and fully humidified had stable MTV 9.5 ± 1.1 mm/min and CBF 13.4 ± 0.6 Hz. When exposed to flow of room air, MTV slowed down to 0.1 ± 0.1 mm/min in 2.0 ± 0.4 s followed by a decrease in CBF to 6.7 ± 1.9 Hz, after 2.3 ± 0.8 s. Both MTV and CBF recovered to their initial state when heated and humidified air-flow was re-introduced. Exposing the tracheal epithelium to nebulized hypertonic saline and nebulized mannitol for 1 min increased MTV without a subsequent increase in CBF. Conclusions This study demonstrates mucociliary transport can deteriorate within seconds of exposing the tracheal epithelium to flowing room air and increase rapidly when exposed to nebulized hypertonic solutions. The reduction in MTV precedes slowing of CBF with room air and MTV increases without a subsequent increase in CBF during the nebulization. Their relationship is non-linear and a minimum CBF of approximately 6 Hz is required for MTV > 0, while MTV can reach 10.9 mm/min without CBF increasing. Clinically these findings indicate a potential rapid detrimental effect of breathing with non-humidified air via bypassed upper airways and the short-term effects of nebulized osmotic agents that increase MTV.