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Effect of Model Tear Film Lipid Layer on Water Evaporation

Xiaojie Xu, Guangle Li, Yi Y. Zuo

2023Investigative Ophthalmology & Visual Science21 citationsDOIOpen Access PDF

Abstract

Purpose: A majority of in vitro models were incapable of reproducing the evaporation resistance of tear film lipid layer (TFLL) in vivo. The purpose of this research is to develop a novel in vitro model to study the effect of TFLL on water evaporation. Methods: A ventilated, closed-chamber, droplet evaporimeter with a constant surface area has been invented to study the evaporation resistance of TFLL. This evaporimeter ensures a rigorous control of environmental conditions, including the temperature, relative humidity, airflow rate, surface area, and surface pressure, thus allowing for reproducible water evaporation measurements over a time period of only 5 minutes. The volumetric evaporation rate of this droplet evaporimeter is less than 2.7 µL/min, comparable to the basal tear production of healthy adults. Together with direct film imaging using atomic force microscopy (AFM), we have studied the effect of a model TFLL on water evaporation, as a function of the lipid composition and surface pressure. Results: A model TFLL composed of 40% wax esters, 40% cholesteryl esters, and 20% polar lipids was capable of reducing the water evaporation rate by 11% at surface pressure 47 mN/m. AFM revealed that the model TFLL at high surface pressures consists of discrete droplets/aggregates of the nonpolar lipids residing atop a polar lipid monolayer with phase separation. Conclusions: The TFLL may resist water evaporation with a combined mechanism by increasing film compactness of the polar lipid film at the air-water surface, and, to a lesser extent, by increasing film thickness of the nonpolar lipid film.

Topics & Concepts

EvaporationMonolayerSurface pressureRelative humidityChemistryWaxPolarLayer (electronics)HumidityMaterials scienceAnalytical Chemistry (journal)Chemical engineeringChromatographyNanotechnologyThermodynamicsOrganic chemistryMeteorologyEngineeringAstronomyPhysicsOcular Surface and Contact LensAdvancements in Transdermal Drug DeliveryAdvanced Drug Delivery Systems
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