模型泪液蛋白和局部眼用制剂对模型泪液脂质纳米膜体外蒸发抑制和生物物理性质的影响

Q3 Materials Science
Meng C. Lin , Tatyana F. Svitova
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引用次数: 1

摘要

模型泪液蛋白和外用眼用制剂可以改变泪液纳米膜的生物物理性质和水分蒸发阻滞。实验采用固定式液滴法测量了蒸发速率和动态表面压力。对5种单独的蛋白质溶液及其混合物和6种眼科配方的水分蒸发进行了定量。通过模型脂质纳米膜在模型电解质溶液、泪液蛋白溶液和眼科配方上的扩散,评估了生物物理特性和蒸发。模型脂质纳米膜在电解质溶液上的扩散可使蒸发通量降低43-60%。不含脂的单个蛋白质溶液的蒸发通量比电解质溶液低3-19%。溶液中存在白蛋白或乳铁蛋白会降低脂质纳米膜的蒸发通量,但溶菌酶和粘蛋白会增加蒸发通量。眼科配方的蒸发通量比电解质溶液低10-43%。通过脂质纳米膜散布在配方上的蒸发量高于通过脂质在电解质溶液上的蒸发量。涂在Diquas上的脂质纳米膜比涂在电解质溶液上的脂质纳米膜更坚硬,但涂在Refresh Mega-3上的脂质纳米膜表现出软化。一些蛋白质和眼科配方改变了模型脂质纳米膜的蒸发屏障。眼用制剂在体外诱导模型脂质纳米膜生物物理特性的变化,可能提示体内泪膜不稳定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effects of model tear proteins and topical ophthalmic formulations on evaporation inhibition and biophysical property of model tear lipid nanofilm in vitro

Effects of model tear proteins and topical ophthalmic formulations on evaporation inhibition and biophysical property of model tear lipid nanofilm in vitro

Hypothesis

Biophysical property and water evaporation retardation through a lipid nanofilm can be altered by model tear protein and topical ophthalmic formulation.

Experiment

Evaporation rate and dynamic surface pressure were measured using a sessile drop technique. Water evaporations from 5 individual protein solutions, their mixture, and 6 ophthalmic formulations were quantified. Biophysical property and evaporation through model lipid nanofilms spread on model electrolyte solutions, tear protein solutions, and ophthalmic formulations were assessed.

Findings

Model lipid nanofilms spread on electrolyte solution reduced evaporative fluxes by 43–60%. Evaporative fluxes from individual protein solutions without lipids were 3–19% lower than from electrolytes solution. Evaporative fluxes through lipid nanofilms were decreased by the presence of albumin or lactoferrin in solutions but increased by lysozyme and mucin.

Evaporative fluxes from ophthalmic formulations were 10–43% lower than from electrolyte solution. Evaporations through lipid nanofilms spread on formulations were higher than through lipids on electrolyte solution. Model lipid nanofilms spread on Diquas appeared more rigid than on electrolyte solution but showed softening when spread on Refresh Mega-3.

Some proteins and ophthalmic formulations altered model lipid nanofilms evaporative barriers. Ophthalmic formulation induced changes in biophysical property of model lipid nanofilms in vitro may suggest possible tear film destabilization in vivo.

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来源期刊
JCIS open
JCIS open Physical and Theoretical Chemistry, Colloid and Surface Chemistry, Surfaces, Coatings and Films
CiteScore
4.10
自引率
0.00%
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0
审稿时长
36 days
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