Your search keyword '"Roya Gitiafroz"' showing total 2 results

1. Effect of humidity on lung surfactant films subjected to dynamic compression/expansion cycles

Author

Yi Y. Zuo, Z. Policova, Peter N. Cox, Roya Gitiafroz, Michael L. Hair, Edgar Acosta, and A. Wilhelm Neumann

Subjects

Pulmonary and Respiratory Medicine, Chromatography, Surface Properties, Physiology, Chemistry, Tension (physics), Yield surface, General Neuroscience, Humidity, Membranes, Artificial, Pulmonary Surfactants, Data compression ratio, Compression (physics), Lipids, Elasticity, Pulmonary surfactant, Respiratory Mechanics, Animals, Surface Tension, Cattle, Relative humidity, Dynamic range compression, Composite material, Lung

Abstract

The surface activity of bovine lipid extracted surfactant (BLES) preparations used in surfactant replacement therapy is studied in dynamic film compression/expansion cycles as a function of relative humidity, surfactant concentration, compression rate, and compression periodicity. BLES droplets were formed in a constrained sessile droplet configuration (CSD). Images obtained during cycling were analyzed using axisymmetric drop shape analysis (ADSA) to yield surface tension, surface area, and drop volume data. The experiments were conducted in a chamber that allowed both humid (100% RH), and "dry" air (i.e. less than 20% RH) environments. It was observed that in humid environments BLES films are not stable and tend to have poor surface activity compared to BLES films exposed to dry air. Further analysis of the data reveal that if BLES films are compressed fast enough (i.e. at physiological conditions) to avoid film hydration, lower minimum surface tensions are achieved. A film hydration-relaxation mechanism is proposed to explain these observations.

Published

2007

2. Effect of Humidity on the Adsorption Kinetics of Lung Surfactant at Air−Water Interfaces

Author

Z. Policova, A. Wilhelm Neumann, Peter N. Cox, Roya Gitiafroz, Michael L. Hair, Edgar Acosta, and Yi Y. Zuo

Subjects

Chromatography, Chemistry, Drop (liquid), Humidity, Surfaces and Interfaces, Electrolyte, Condensed Matter Physics, Surface tension, Adsorption, Sessile drop technique, Pulmonary surfactant, Chemical engineering, Electrochemistry, General Materials Science, Relative humidity, Spectroscopy

Abstract

The in vitro adsorption kinetics of lung surfactant at air-water interfaces is affected by both the composition of the surfactant preparations and the conditions under which the assessment is conducted. Relevant experimental conditions are surfactant concentration, temperature, subphase pH, electrolyte concentration, humidity, and gas composition of the atmosphere exposed to the interface. The effect of humidity on the adsorption kinetics of a therapeutic lung surfactant preparation, bovine lipid extract surfactant (BLES), was studied by measuring the dynamic surface tension (DST). Axisymmetric drop shape analysis (ADSA) was used in conjunction with three different experimental methodologies, i.e., captive bubble (CB), pendant drop (PD), and constrained sessile drop (CSD), to measure the DST. The experimental results obtained from these three methodologies show that for 100% relative humidity (RH) at 37 degrees C the rate of adsorption of BLES at an air-water interface is substantially slower than for low humidity. It is also found that there is a difference in the rate of surface tension decrease measured from the PD and CB/CSD methods. These experimental results agree well with an adsorption model that considers the combined effects of entropic force, electrostatic interaction, and gravity. These findings have implications for the development and evaluation of new formulations for surfactant replacement therapy.

Published

2005