Monika Gasztych, Katarzyna Burdzy, Arleta Dołowacka-Jóźwiak, Witold Musiał
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引用次数: 0
摘要
背景:许多物质被用来增加眼药水的粘度和降低其表面张力。它们的作用是延长产品在眼球表面的持久性,提高药理活性成分的生物利用度:研究添加到滴眼液中的物质的表面张力,主要目的是调节制剂的特性:研究了拟用于开发滴眼液的溶液中所含的五种物质:大分子透明质酸钠(H-Na W)、超分子透明质酸钠(H-Na UM)、4%透明质酸(K-H)、甲基纤维素(MC)和聚丙烯酸(PA)。主要方法是使用 du Noüy 环形张力仪研究表面张力:本文的研究显示了不同眼药水成分对溶液表面张力的各种影响。PA 溶液的表面张力值在 48.89-56.03 mN/m 之间,MC 溶液的表面张力值在 68.94-89.32 mN/m 之间,K-H 溶液的表面张力值在 54.54-65.66 mN/m 之间,H-Na UM 溶液的表面张力值在 67.18-70.97 mN/m 之间,H-Na W 溶液的表面张力值在 67.09-71.73 mN/m 之间:不同聚合物的使用会影响眼科制剂模型溶液的表面张力。含有羧基和阴离子聚合物的化合物在降低溶液表面张力方面的效果与传统表面活性剂化合物相似。
The influence of selected polymers on the surface tension of solutions developed for the preparation of eye drops.
Background: Many substances are used to increase the viscosity of eye drops and reduce their surface tension. Their function is to prolong the persistence of the product on the surface of the eyeball and to increase the bioavailability of the pharmacologically active ingredient.
Objectives: To investigate the surface tension of substances added to the eye drops, with the main aim of modulating properties of the preparation.
Material and methods: Five substances contained in solutions proposed for the development of eye drops were studied: sodium hyaluronate macromolecular (H-Na W), sodium hyaluronate ultramolecular (H-Na UM), hyaluronic acid 4% (K-H), methylcellulose (MC), and polyacrylic acid (PA). The main method was to study the surface tension using the du Noüy ring tensiometer.
Results: The research presented in this paper shows the various effects of different eye drop ingredients on the surface tension of the solutions. The surface tension values of PA solutions are in the range of 48.89-56.03 mN/m, of MC in the range of 68.94-89.32 mN/m, of K-H 54.54-65.66 mN/m, of H-Na UM 67.18-70.97 mN/m, and of H-Na W 67.09-71.73 mN/m.
Conclusions: The use of different polymers affects the surface tension of model solutions proposed for use in ophthalmic preparations. Compounds containing carboxyl groups and anionic polymers have a similar effect on reducing the surface tension of the solution as classical surfactant compounds.
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