Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro.

Biomedicine Hub Pub Date : 2021-08-13 eCollection Date: 2021-05-01 DOI:10.1159/000517845

Anne Hedengran, Xenia Begun, Olivia Müllertz, Zaynab Mouhammad, Rupali Vohra, Jeffrey Bair, Darlene A Dartt, Barbara Cvenkel, Steffen Heegaard, Goran Petrovski, Miriam Kolko

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引用次数: 11

Abstract

Introduction: Most intraocular pressure (IOP)-lowering eye drops are preserved with benzalkonium chloride (BAK). This can increase side effects and decrease adherence. Particularly, damage to the mucin-producing conjunctival goblet cells may be an issue due to instability of the tear film. We aimed to investigate the effect of IOP-lowering eye drops preserved with BAK on cultured human conjunctival goblet cells.

Methods: Eye drops Brimonidine Tartrate Teva (BT) with 0.005% BAK, Dorzolamide Stada (DS) with 0.0075% BAK, Optimol^® (OP) with 0.01% BAK, and Latanoprost Teva (LT) with 0.02% BAK were included. Human primary cultured goblet cell survival was evaluated using a lactate dehydrogenase assay on human goblet cells after treatment for 30 min and 6 h with the different anti-glaucoma drug formulations.

Results: All eye drops examined, except BT, reduced goblet cell survival. The impact of eye drops on goblet cell viability was correlated with the time of exposure as well as to the concentration of BAK. After 30 min of exposure, cell viability was 93% for BT (0.005% BAK; p = 0.93), 71% for DS (0.0075% BAK; p = 0.067), 70% for OP (0.01% BAK; p = 0.054), and 69% for LT (0.02% BAK; p = 0.022), and exposure for 6 h reduced cell survival to 74% for BT (p = 0.217), 52% for DS (p = 0.011), 34% for OP (p = 0.017), and 31% for LT (p = 0.0007).

Conclusion: LT, OP, and DS reduced human goblet cell survival in a time-dependent manner. BT did not affect goblet cell survival. Cell survival was correlated with the BAK concentration in the eye drops making 0.02% BAK-preserved LT most toxic and 0.005% BAK-preserved BT least toxic. Based on the present study, decreasing BAK in eye drops for chronic use seems important to reduce damage to the goblet cells. However, future studies are needed to further explore this finding.

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苯扎氯铵抗青光眼滴眼液及其对人结膜杯状细胞的影响。

简介:大多数眼压(IOP)降眼药水是用苯扎氯铵(BAK)保存的。这可能会增加副作用，降低依从性。特别是，由于泪膜的不稳定性，对产生黏液的结膜杯状细胞的损伤可能是一个问题。本实验旨在探讨含BAK的降眼液对培养的人结膜杯状细胞的影响。方法:选择BAK含量为0.005%的酒石酸布莫尼定滴眼液(BT)、BAK含量为0.0075%的多唑胺(DS)、BAK含量为0.01%的Optimol®(OP)、BAK含量为0.02%的Latanoprost Teva (LT)。不同的抗青光眼药物配方作用30min和6h后，用乳酸脱氢酶测定人杯状细胞的存活情况。结果:除BT外，所有滴眼液均可降低杯状细胞存活率。滴眼液对杯状细胞活力的影响与暴露时间和BAK浓度有关。暴露30min后，BT细胞存活率为93%，BAK细胞存活率为0.005%;p = 0.93)， DS为71% (BAK为0.0075%;p = 0.067)， OP为70% (0.01% BAK;p = 0.054)， LT为69% (BAK为0.02%;p = 0.022)，暴露6小时后，BT细胞存活率为74% (p = 0.217)， DS为52% (p = 0.011)， OP为34% (p = 0.017)， LT为31% (p = 0.0007)。结论:LT、OP和DS以时间依赖性方式降低人杯状细胞存活率。BT不影响杯状细胞的存活。细胞存活与滴眼液中BAK浓度相关，0.02% BAK保存的LT毒性最大，0.005% BAK保存的BT毒性最小。根据目前的研究，减少长期使用滴眼液中的BAK似乎对减少杯状细胞的损伤很重要。然而，未来的研究需要进一步探索这一发现。

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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