Cyclosporine-loaded micelles for ocular delivery: Investigating the penetration mechanisms

Cyclosporine is an immunomodulatory drug commonly used for the treatment of mild-to-severe dry eye syndrome as well as intermediate and posterior segment diseases as uveitis. The ocular administration is however hampered by its relatively high molecular weight and poor permeability across biological...

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Bibliographic Details
Published in:Journal of controlled release 2022-09, Vol.349, p.744-755
Main Authors: Ghezzi, Martina, Ferraboschi, Ilaria, Delledonne, Andrea, Pescina, Silvia, Padula, Cristina, Santi, Patrizia, Sissa, Cristina, Terenziani, Francesca, Nicoli, Sara
Format: Article
Language:English
Subjects:
Corneal delivery
Cyclosporine
Polymeric micelles
TPGS hydrolysis
Transscleral delivery
Two-photon microscopy
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Summary:Cyclosporine is an immunomodulatory drug commonly used for the treatment of mild-to-severe dry eye syndrome as well as intermediate and posterior segment diseases as uveitis. The ocular administration is however hampered by its relatively high molecular weight and poor permeability across biological barriers. The aim of this work was to identify a micellar formulation with the ability to solubilize a considerable amount of cyclosporine and promote its transport across ocular barriers. Non-ionic amphiphilic polymers used for micelles preparation were tocopherol polyethylene glycol 1000 succinate (TPGS) and Solutol® HS15. Furthermore, the addition of alpha-linolenic acid was assessed. A second aim was to evaluate micelles fate in the ocular tissues (cornea and sclera) to shed light on penetration mechanisms. This was possible by extracting and quantifying both drug and polymer in the tissues, by studying TPGS hydrolysis in a bio-relevant environment and by following micelles penetration with two-photon microscopy. Furthermore, TPGS role as permeation enhancer on the cornea, with possible irreversible modifications of tissue permeability, was analyzed. Results showed that TPGS micelles (approx. 13 nm in size), loaded with 5 mg/ml of cyclosporine, promoted drug retention in both the cornea and the sclera. Data demonstrated that micelles behavior strictly depends on the tissue: micelles disruption occurs in contact with the cornea, while intact micelles diffuse in the interfibrillar pores of the sclera and form a reservoir that can sustain over time drug delivery to the deeper tissues. Finally, cornea quickly restore the barrier properties after TPGS removal from the tissue, demonstrating its potential good tolerability for ocular application. [Display omitted] •TPGS micelles improved cyclosporine solubility promoting its retention in eye tissues.•Micelles disassemble in contact with the cornea.•Micelles diffuse intact inside the scleral tissue.•TPGS is hydrolyzed by tissue esterases when in contact with cornea and sclera.•Two-photon microscopy is a useful tool to study micelles-tissues interaction.
ISSN:0168-3659
1873-4995
DOI:10.1016/j.jconrel.2022.07.019