Hydrogel contact lens dehydration and oxygen transmissibility.

The CLAO journal : official publication of the Contact Lens Association of Ophthalmologists, Inc Pub Date : 1999-07-01

N Efron, P B Morgan

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Abstract

Purpose: Oxygen transmissibility is a key determinant of the physiological response of the cornea to contact lens wear. Because transmissibility is related to hydrogel water content, we conducted a study to determine the change in water content during lens wear and to quantify the impact any such change would have on transmissibility.

Methods: In a double masked clinical investigation, two subjects each wore 17 different pairs of contact lenses. Water content was measured before lens wear at 35 degrees C and immediately after 4 hours of contact lens wear. Contact lens oxygen transmissibilities were calculated on each occasion.

Results: The absolute changes in water content for the 17 lenses varied from +0.5% to -5.3%. For some lenses, this change in water content altered the lens oxygen transmissibilities to a clinically significant degree. The changes in water content and oxygen transmissibilities were greatest with FDA Group IV lenses.

Conclusions: Dehydration during contact lens wear can alter the oxygen transmissibility of hydrogel lenses, and in some situations, this factor may be clinically significant.

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水凝胶隐形眼镜的脱水性和氧传递性。

目的:氧传递率是角膜对隐形眼镜佩戴生理反应的关键决定因素。由于透光率与水凝胶含水量有关，我们进行了一项研究，以确定镜片磨损过程中含水量的变化，并量化这种变化对透光率的影响。方法:采用双蒙面临床调查，两名受试者每人配戴17副不同的隐形眼镜。在35℃下佩戴隐形眼镜前和佩戴4小时后立即测量水分含量。在每个场合都计算隐形眼镜的氧透射率。结果:17个晶状体含水量的绝对变化在+0.5% ~ -5.3%之间。对于一些晶状体，这种水含量的变化改变了晶状体的氧传递到临床显著程度。FDA IV组镜片的含水量和氧透射率变化最大。结论:隐形眼镜佩戴过程中的脱水会改变水凝胶镜片的氧传递性，在某些情况下，这一因素可能具有临床意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The CLAO journal : official publication of the Contact Lens Association of Ophthalmologists, Inc

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