Chemical and Biological Engineering, Colorado School of Mines , Golden, CO, USA.
Department of Chemical Engineering, University of Florida , Gainesville, FL, USA.
Expert Opin Drug Deliv. 2020 Aug;17(8):1133-1149. doi: 10.1080/17425247.2020.1787983. Epub 2020 Jul 2.
Eye drops are commonly used for delivering ophthalmic drugs despite many deficiencies including low bioavailability and poor compliance. Contact lenses can deliver drugs with high bioavailability but commercial contacts release drug rapidly, limiting benefits and necessitating modifications to improve the drug release characteristics.
This review covers the common approaches to prolong the release rates of drugs from contact lenses including molecular imprinting, incorporation of nano/microparticles, vitamin-E barriers, and layered/implant contact lenses. It also evaluates their suitability for commercialization and discusses challenges that need to be addressed before commercialization is possible.
In spite of many benefits of contact lenses compared to eye drops, a drug-eluting contact lens has not emerged in the market due to many reasons including potential safety risks, patient and practitioner acceptance, and production and storage factors. Importantly, changes in the critical lens properties must also be considered such as ion and oxygen permeability, loss in modulus, optical and swelling properties, and protein adherence upon drug loading. Many technologies have addressed scientific and commercialization challenges and are currently being tested both in animal and clinical studies. It is likely that a drug-eluting contact lens will be commercialized in the future.
尽管滴眼剂在递送眼科药物方面应用广泛,但仍存在许多不足,包括生物利用度低和顺应性差。隐形眼镜可以实现高生物利用度的药物递送,但商业隐形眼镜会迅速释放药物,限制了其益处,需要进行修改以改善药物释放特性。
本文综述了延长隐形眼镜中药物释放速率的常见方法,包括分子印迹、纳米/微粒的掺入、维生素 E 屏障和分层/植入式隐形眼镜。本文还评估了它们的商业化适用性,并讨论了在实现商业化之前需要解决的挑战。
尽管与滴眼剂相比,隐形眼镜具有许多优势,但由于潜在的安全风险、患者和医生的接受程度以及生产和储存因素等诸多原因,一种载药隐形眼镜尚未在市场上出现。重要的是,在药物负载后,还必须考虑到镜片关键特性的变化,如离子和氧气通透性、模量损失、光学和溶胀特性以及蛋白质黏附。许多技术已经解决了科学和商业化方面的挑战,目前正在动物和临床研究中进行测试。未来很可能会有载药隐形眼镜实现商业化。
