Abstract
Conventional ophthalmic dosage forms, although being simple to apply and presenting great patients' compliance, display poorer drug bioavailability and retention time on the eye surface. To cope with these problems, one must formulate novel drug delivery systems, such as nanosystems, for ocular drug delivery. Different formulation methods of nanoparticles have been developed, but some of them, such as the supercritical fluid method, have not reached their full potential in ocular drug delivery. This article aims to present the possibilities of the supercritical fluid method when preparing nanosystems for ocular drug delivery. This method could be used more frequently and efficiently because it is environmentally friendly and produces nanoparticles of the desired physicochemical properties, which is especially important in ocular drug delivery considering its peculiarities. Modifications of the supercritical fluid method can be used when a drug has some specific properties, which is an additional benefit in ocular drug delivery.
Highlights
University of Sarajevo Abstract- Conventional ophthalmic dosage forms, being simple to apply and presenting great patients' compliance, display poorer drug bioavailability and retention time on the eye surface
This article aims to present the possibilities of the supercritical fluid method when
Having in mind all these specificities of ocular drug delivery, as well as the fact that newer formulation methods of nanoparticles, such as the supercritical fluid method, have not been used in preparing ocular drug delivery nanosystems so much, this article aims to present the possibilities of the use of the supercritical fluid method when preparing nanosystems for ocular drug delivery
Summary
University of Sarajevo Abstract- Conventional ophthalmic dosage forms, being simple to apply and presenting great patients' compliance, display poorer drug bioavailability and retention time on the eye surface. To cope with these problems, one must formulate novel drug delivery systems, such as nanosystems, for ocular drug delivery. These barriers are [1,2]: Anatomical This method the blood-retinal barrier (BRB) comprising retinal could be used more frequently and efficiently because it is capillary endothelial cells and retinal pigment environmentally friendly and produces nanoparticles of the epithelium (RPE))
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