期刊
PHARMACEUTICS
卷 13, 期 7, 页码 -出版社
MDPI
DOI: 10.3390/pharmaceutics13071013
关键词
liposomes; intravitreal; ocular drug delivery; retinal explants
资金
- German Research Council (DFG) [PA1751/10-1]
This study demonstrated the feasibility of using fresh porcine eyes as a model for testing intravitreal biodistribution and retention of liposomes, providing insights into important considerations for ocular drug delivery. The results showed that PEG-coated liposomes were rapidly absorbed on the retina, while positively charged and PEG-coated liposomes were retained for at least 24 hours. Toxicity experiments on murine-derived retinal explant cultures indicated increased photoreceptor cell death at higher concentrations of anionic and cationic liposomes.
There is a strong need for innovative and efficient drug delivery systems for ocular therapy development. However, testing intravitreal drug delivery systems without using live animals is challenging. Ex vivo animal models offer an interesting alternative. We analyzed the potential of using fresh porcine eyes obtained from the local slaughterhouse as a model for testing the intravitreal biodistribution and retention of liposomes with or without polyethylene glycol (PEG) conjugation and with different surface charges. The histology of the eyes was analyzed to localize the liposomes, and it was found that liposomes with PEG absorbed rapidly on the retina (within 1 h), with positively charged and PEG-coated liposomes being retained for at least 24 h. In parallel, fluorophotometry was employed on intact eyes, to determine the pharmacokinetics of the fluorophore calcein, as a substitute for a small hydrophilic therapeutic compound. We found a 4.5-fold increase in the vitreous half-life of calcein loaded in liposomes, compared with the free solution. Retinal toxicity was addressed using murine-derived retinal explant cultures. Liposomes were non-toxic up to 500 mu g/mL. Toxicity was observed at 5 mg/mL for anionic and cationic liposomes, with 2-fold and 2.5-fold increased photoreceptor cell death, respectively. Overall, we could show that important ocular drug delivery considerations such as pharmacokinetics and biodistribution can be estimated in ex vivo porcine eyes, and may guide subsequent in vivo experiments.
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