Four Layer Cylindrical Model of Mucus Transport in the Lung: Effect of Prolonged Cough

Abstract: Background: In this paper, a four layer model of the simultaneous and coaxial flow of moist air, mucus, mixture of mucin and periciliary liquid and serous fluid (assumed to be incompressible and Newtonian fluids) in a circular tube under time dependent pressure gradient representing prolonged cough is analyzed to study the mucus transport in an airway in the presence of prolonged cough. It is assumed that air and mucus flow under quasi steady state turbulent conditions while the mixture of mucin and periciliar… Show more

“…electrostatic and hydrogen bonding) between the diffusing drug and the polymeric components of the ALS cannot be a priori excluded [ 43 ]. Furthermore, as ASL is not homogeneous, the drug diffusion coefficient ( D ) should be position dependent [ 42 ]. However, assuming that drug transport is mainly affected by diffusion with constant D , the prediction of the drug penetration inside ASL can be obtained by referring to the one-dimensional Fick’s equation with proper initial and boundary conditions.…”

“…The viscoelastic nature of mucus depends on the presence of different components such as proteins, alginates, white blood cells, DNA, bacteria and mucin (whose levels are pathologically increased compared with healthy subjects [39]) that lead to a three-dimensional network [40]. Drug permeation inside the ASL is a complex phenomenon affected by many factors such as the thickness of ASL, which depends on the ASL rheological properties and the airflow [37,41,42]. Moreover, possible interactions (e.g.…”

Effect of chest physiotherapy on cystic fibrosis sputum nanostructure: an experimental and theoretical approach

“…electrostatic and hydrogen bonding) between the diffusing drug and the polymeric components of the ALS cannot be a priori excluded [ 43 ]. Furthermore, as ASL is not homogeneous, the drug diffusion coefficient ( D ) should be position dependent [ 42 ]. However, assuming that drug transport is mainly affected by diffusion with constant D , the prediction of the drug penetration inside ASL can be obtained by referring to the one-dimensional Fick’s equation with proper initial and boundary conditions.…”

“…The viscoelastic nature of mucus depends on the presence of different components such as proteins, alginates, white blood cells, DNA, bacteria and mucin (whose levels are pathologically increased compared with healthy subjects [39]) that lead to a three-dimensional network [40]. Drug permeation inside the ASL is a complex phenomenon affected by many factors such as the thickness of ASL, which depends on the ASL rheological properties and the airflow [37,41,42]. Moreover, possible interactions (e.g.…”

Effect of chest physiotherapy on cystic fibrosis sputum nanostructure: an experimental and theoretical approach