Abstract
Development of topical bioactive formulations capable of overcoming the low bioavailability of conventional eye drops is critically important for efficient management of ocular chemical burns. Herein, a nanomedicine strategy is presented to harness the surface roughness-controlled ceria nanocages (SRCNs) and poly(l-histidine) surface coatings for triggering multiple bioactive roles of intrinsically therapeutic nanocarriers and promoting transport across corneal epithelial barriers as well as achieving on-demand release of dual drugs [acetylcholine chloride (ACh) and SB431542] at the lesion site. Specifically, the high surface roughness helps improve cellular uptake and therapeutic activity of SRCNs while exerting a negligible impact on good ocular biocompatibility of the nanomaterials. Moreover, the high poly(l-histidine) coating amount can endow the SRCNs with an ≈24-fold enhancement in corneal penetration and an effective smart release of ACh and SB431542 in response to endogenous pH changes caused by tissue injury/inflammation. In a rat model of alkali burn, topical single-dose nanoformulation can efficaciously reduce corneal wound areas (19-fold improvement as compared to a marketed eye drops), attenuate ≈93% abnormal blood vessels, and restore corneal transparency to almost normal at 4 days post-administration, suggesting great promise for designing multifunctional metallic nanotherapeutics for ocular pharmacology and tissue regenerative medicine.
Original language | English |
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Article number | 2302174 |
Pages (from-to) | e2302174 |
Journal | Advanced Science |
Volume | 10 |
Issue number | 26 |
DOIs | |
State | Published - 15 09 2023 |
Bibliographical note
© 2023 The Authors. Advanced Science published by Wiley-VCH GmbH.Keywords
- enhanced pharmacological bioavailability
- eye injury therapy
- multifunctional biomaterial system
- smart drug delivery
- surface engineering
- Animals
- Rats
- Ophthalmic Solutions
- Eye Injuries
- Benzamides