Adsorption and Co-Adsorption of Polyaldehyde Dextran Nanoparticles and Nonionic Surfactant at an Air–Water Interface: Potential Implications for Pulmonary Drug Delivery

Journal title

Chemical and Process Engineering




vol. 38


No 1



polysaccharide nanoparticles ; lung surfactant ; dynamic surface tension ; surface viscoelasticity ; hysteresis

Divisions of PAS

Nauki Techniczne




Polish Academy of Sciences Committee of Chemical and Process Engineering




Artykuły / Articles


ISSN 0208-6425


Podgórski (2001), Deactivation of the pulmonary surfactant dynamics by toxic aerosols and gases, Aerosol Med, 14, ; Sosnowski (2016), New experimental model of pulmonary surfactant for biophysical studies Surfaces A Aspects, Coll Physicochem Eng, ; Sosnowski (1998), Experimental evaluation of importance of the pulmonary surfactant for oxygen transfer rate in human lungs Safety Ergon, Int J Occup, 4, 391, ; Hall (1985), Inhibition of pulmonary surfactant by oleic acid : mechanisms and characteristics, Appl Physiol, 72. ; Sosnowski (2000), Influence of insoluble aerosol deposits on the surface activity of the pulmonary surfactant : a possible mechanism of alveolar clearance retardation, Aerosol Sci Technol, 32, ; Eastoe (2000), Dynamic surface tension and adsorption mechanisms of surfactants at the air - water interface, Adv Coll Interface Sci, 85, ; Rosenberg (2016), Influence of long - term inhaled glucocorticoids on the lung surfactant phospholipid levels in rats, Int J Biomed, 6, ; Kramek (2015), Dynamic tensiometry studies on interactions of novel therapeutic inhalable powders with model pulmonary surfactant at the air - water interface Surfaces A Aspects, Coll Physicochem Eng, 480, ; Kondej (2013), Alteration of biophysical activity of pulmonary surfactant by aluminosilicate nanoparticles Inhalation, Toxicol, 25, ; Jabłczyńska (2015), Preparation and characterization of biocompatible polymer particles as potential nanocarriers for inhalation therapy Article ID, Int J Polym Sci, ; Gradoń (1996), Experimental and theoretical investigations of transport properties of DPPC monolayer, Aerosol Med, 9, 357, ; Gibbs (1961), On the equilibrium of heterogeneous substances In : The Scientific Papers of Dover Publications , New York, Thermodynamics. ; Kondej (2016), Effect of clay nanoparticles on model lung surfactant : a potential marker of hazard from nanoaerosol inhalation, Sci Pollut Res, 23, ; Grotberg (2001), Respiratory fluid mechanics and transport processes, Annu Rev Biomed Eng, 3, 421, ; Okubo (1995), Surface tension of structured colloidal suspensions of polystyrene and silica spheres at the air - water interface, Coll Interface Sci, 171, ; Santos (2014), Inhaled insulin : a breath of fresh air ? A review of inhaled insulin, Clin Ther, 36, ; Zhang (2012), Differential effects of cholesterol and budesonide on biophysical properties of clinical surfactant Pediatric, Res, 71, ; Gradoń (1989), Hydrodynamical model of pulmonary clearance, Chem Eng Sci, 44, ; Miller (2009), Interfacial Rheology Vol Progress in Colloid and Interface Leiden - Boston, Science. ; Podgórski (1993), An improved mathematical model of hydrodynamical self - cleansing of pulmonary alveoli, Ann Occup Hyg, 37, ; Ward (1946), Time - dependence of boundary tensions of solutions I The role of diffusion in time - effects, Chem Phys, 14. ; Rao (1994), Pulmonary oedema due to inhalation of detergent aerosol, Pathol, 16. ; Ellyett (1996), Surfactant aerosol treatment of respiratory distress syndrome in the spontaneously breathing premature rabbit Pediatric, Res, 39, ; Notter (1982), Hysteresis in saturated phospholipid films and its potential relevance for lung surfactant function in vivo, Exp Lung Res, 3, 109, ; Beck (2014), Biophysical inhibition of synthetic vs naturally - derived pulmonary surfactant preparations by polymeric nanoparticles Biomembranes, Biochim Biophys Acta, 1838, ; Bizmark (2014), Irreversible adsorption - driven assembly of nanoparticles at fluid interfaces revealed by a dynamic surface tension probe, Langmuir, 30,