Development of ARPE-19-Equipped Ocular Cell Model for In Vitro Investigation on Ophthalmic Formulations
-
Published:2023-10-16
Issue:10
Volume:15
Page:2472
-
ISSN:1999-4923
-
Container-title:Pharmaceutics
-
language:en
-
Short-container-title:Pharmaceutics
Author:
Sapino Simona1ORCID, Chindamo Giulia1ORCID, Peira Elena1ORCID, Chirio Daniela1ORCID, Foglietta Federica1ORCID, Serpe Loredana1ORCID, Vizio Barbara2ORCID, Gallarate Marina1ORCID
Affiliation:
1. Department of Drug Science and Technology, University of Turin, 10125 Turin, Italy 2. Department of Medical Sciences, University of Turin, Via Genova 3, 10126 Turin, Italy
Abstract
Repeated intravitreal (IVT) injections in the treatment of retinal diseases can lead to severe complications. Developing innovative drug delivery systems for IVT administration is crucial to prevent adverse reactions, but requires extensive investigation including the use of different preclinical models (in vitro, ex vivo and in vivo). Our previous work described an in vitro tricompartmental ocular flow cell (TOFC) simulating the anterior and posterior cavities of the human eye. Based on promising preliminary results, in this study, a collagen scaffold enriched with human retinal pigmented epithelial cells (ARPE-19) was developed and introduced into the TOFC to partially mimic the human retina. Cells were cultured under dynamic flow conditions to emulate the posterior segment of the human eye. Bevacizumab was then injected into the central compartment of the TOFC to treat ARPE-19 cells and assess its effects. The results showed an absence of cytotoxic activity and a significant reduction in VEGF fluorescent signal, underscoring the potential of this in vitro model as a platform for researching new ophthalmic formulations addressing the posterior eye segment, eventually decreasing the need for animal testing.
Subject
Pharmaceutical Science
Reference39 articles.
1. Christensen, G., Barut, L., Urimi, D., Schipper, N., and Paquet-durand, F. (2021). Investigating Ex Vivo Animal Models to Test the Performance of Intravitreal Liposomal Drug Delivery Systems. Pharmaceutics, 13. 2. Preclinical models in ophthalmic oncology—A narrative review;Lehrmann;Ann. Eye Sci.,2022 3. (2023, June 05). 2021/2784(RSP). Available online: https://oeil.secure.europarl.europa.eu/oeil/popups/ficheprocedure.do?lang=en&reference=2021/2784. 4. Haschek, W.M., Rousseaux, C.G., Wallig, M.A., and Bolon, B. (2022). Haschek and Rousseaux’s Handbook of Toxicologic Pathology, Academic Press. [4th ed.]. 5. Verderio, P., Lecchi, M., Ciniselli, C.M., Shishmani, B., Apolone, G., and Manenti, G. (2023). 3Rs Principle and Legislative Decrees to Achieve High Standard of Animal Research. Animals, 13.
|
|