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Intravitreal drug delivery in retinal disease: are we out of our depth?

视网膜 玻璃体内给药 药物输送 医学 视网膜 眼球后段 计算机科学 神经科学 眼科 生物 纳米技术 材料科学
作者
Sachin Thakur,Nigel L. Barnett,Mark J Donaldson,Harendra S. Parekh
出处
期刊:Expert Opinion on Drug Delivery [Taylor & Francis]
卷期号:11 (10): 1575-1590 被引量:53
标识
DOI:10.1517/17425247.2014.927864
摘要

With the ever-increasing global burden of retinal disease, there is an urgent need to vastly improve formulation strategies that enhance posterior eye delivery of therapeutics. Despite intravitreal administration having demonstrated notable superiority over other routes in enhancing retinal drug availability, there still exist various significant physical/biochemical barriers preventing optimal drug delivery into the retina. A further complication lies with an inability to reliably translate laboratory-based retinal models into a clinical setting. Several formulation approaches have recently been evaluated to improve intravitreal therapeutic outcomes, and our aim in this review is to highlight strategies that hold the most promise.We discuss the complex barriers faced by the intravitreal route and examine how formulation strategies including implants, nanoparticulate carriers, viral vectors and sonotherapy have been utilized to attain both sustained delivery and enhanced penetration through to the retina. We conclude by highlighting the advances and limitations of current in vitro, ex vivo and in vivo retinal models in use by researchers globally.Various nanoparticle compositions have demonstrated the ability to overcome the retinal barriers successfully; however, their utility is limited to the laboratory setting. Optimization of these formulations and the development of more robust experimental retinal models are necessary to translate success in the laboratory into clinically efficacious outcomes.

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