Drug-free hyaluronic acid-microneedle with unexpected inhibition activity on benzalkonium chloride-induced corneal inflammation and stromal scarring

Drug-free hyaluronic acid-microneedle with unexpected inhibition activity on benzalkonium chloride-induced corneal inflammation and stromal scarring

Topical instilling of commercial artificial tears (cAT, containing 0.1 % hyaluronic acid) is widely employed to alleviate clinical manifestations of mild dry eye disease (DED) by preventing the pathological change of corneal epithelium. However, it showed limited therapy effectiveness on heavy DED w...

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Bibliographic Details
Main Authors: Baoshan Huang, Rui Zeng, Xiao Liu, Lu Pan, Haitong Bai, Jiachen Liao, Wenkai Xu, Hong Fu, Kaihui Nan, Sen Lin
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:Materials Today Bio
Subjects:
Microneedle
Hyaluronic acid
Artificial tear
Dry eye disease
Corneal stromal scarring
Online Access:http://www.sciencedirect.com/science/article/pii/S2590006425002819
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Summary:Topical instilling of commercial artificial tears (cAT, containing 0.1 % hyaluronic acid) is widely employed to alleviate clinical manifestations of mild dry eye disease (DED) by preventing the pathological change of corneal epithelium. However, it showed limited therapy effectiveness on heavy DED which has further involved corneal stroma, due to its low stroma-available for hyaluronic acid (HA) resulting from the barrier of corneal epithelium. The present study developed a new microneedle-dosage form of cAT (cAT-MN). This cAT-MN can overstride the corneal epithelium and act as a long-lasting protective agent. Compared to cAT dosing (4 times/day), cAT-MN with one treatment exerted significantly higher therapeutic effects on curbing benzalkonium chloride (BAC)-induced corneal stroma scaring as well as alleviating the DED symptoms in the first 5-day BAC exposure; whereas, showed limited effects in a 10-day BAC exposure. To expand the therapy effects, MNs containing various amounts of HA were prepared. Thereinto, HA(6 %)-MN recovered corneal damage to healthy levels, which could be attributed to adding stroma-available for HA both by increasing the amounts of HA-delivery and enhancing HA-permeation. This study explores a new drug-free microneedle-dosage form of cAT to cure corneal stroma disorders which has expanded its indication, promising a wide clinical use in ophthalmology.
ISSN:2590-0064

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