Assessing the ex vivo permeation behaviour of functionalised contact lens coatings engineered using an electrohydrodynamic technique

In vitro testing alone is no longer considered sufficient evidence presented solely with respect to drug release and permeation testing. These studies are thought to be more reliable and representative when using tissue or animal models; as opposed to synthetic membranes. The release of anti-glaucom...

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Bibliographic Details
Published inJPhys materials Vol. 2; no. 1; pp. 14002 - 14008
Main Authors Mehta, Prina, Al-Kinani, Ali A, Qutachi, Omar, Arshad, Muhammad S, Alqahtani, Ali, Chang, Ming-Wei, Amoaku, Winfried M, Alany, Raid G, Ahmad, Zeeshan
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.01.2019
Subjects
biomaterials
Coatings
Contact lenses
Cornea
drug delivery
Drug delivery systems
Electric contacts
Electrohydrodynamics
Glaucoma
In vitro methods and tests
Lag time
lens
Membranes
Penetration
permeation
Polyisopropyl acrylamide
Polyvinylpyrrolidone
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Summary:In vitro testing alone is no longer considered sufficient evidence presented solely with respect to drug release and permeation testing. These studies are thought to be more reliable and representative when using tissue or animal models; as opposed to synthetic membranes. The release of anti-glaucoma drug timolol maleate from electrically atomised coatings was assessed here using freshly excised bovine corneal tissue. Electrohydrodynamic processing was utilised to engineer functionalised fibrous polyvinylpyrrolidone-Poly (N-isopropylacrylamide) coatings on the outer side of commercial silicone contact lenses. Benzalkonium chloride, ethylenediaminetetraacetic acid, Brij 78 and borneol were employed as permeation enhancers to see their effect on ex vivo permeation of timolol maleate through the cornea. Formulations containing permeation enhancers showed a vast improvement with respect to cumulative amount of drug permeating through the cornea as shown by a six fold decrease in lag time compared to enhancer-free formulations. Most drug delivery systems require the drug to pass or permeate through a tissue or biological membrane. This study has shown that to fully appreciate and understand how a novel drug delivery system will behave not only within the device but with the external environment or tissue, it is imperative to have in vitro and ex vivo data in conjunction.
Bibliography:JPMATER-100064.R1
ISSN:2515-7639
2515-7639
DOI:10.1088/2515-7639/aaf263