Ocular drug delivery is one of the most attention-grabbing and challenging endeavors among the numerous existing drug delivery systems.From a drug delivery point of view,eye is an intricate organ to investigate and ex...Ocular drug delivery is one of the most attention-grabbing and challenging endeavors among the numerous existing drug delivery systems.From a drug delivery point of view,eye is an intricate organ to investigate and explore.In spite of many limitations,advancements have been made with the intention of improving the residence time or permeation of the drug in the ocular region.Poor bioavailability of topically administered drugs is the major issue pertaining to ocular drug delivery.Several efforts have been made towards improving precorneal residence time and corneal penetration,e.g.iontophoresis,prodrugs and ionpairing,etc.Prodrug approach(chemical approach)has been explored by the formulation scientists to optimize the physicochemical and biochemical properties of drug molecules for improving ocular bioavailability.Formulation of ocular prodrugs is a challenging task as they should exhibit optimum chemical stability as well as enzymatic liability so that they are converted into parent drug after administration at the desired pace.This review will encompass the concept of derivatization and recent academic and industrial advancements in the field of ocular prodrugs.The progression in prodrug designing holds a potential future for ophthalmic drug delivery.展开更多
In vivo skin permeation studies are considered gold standard but are difficult to perform and evaluate due to ethical issues and complexity of process involved. In recent past, a useful tool has been developed by comb...In vivo skin permeation studies are considered gold standard but are difficult to perform and evaluate due to ethical issues and complexity of process involved. In recent past, a useful tool has been developed by combining the computational modeling and experimental data for expounding biological complexity. Modeling of percutaneous permeation studies provides an ethical and viable alternative to laboratory experimentation. Scientists are exploring complex models in magnificent details with advancement in computational power and technology. Mathematical models of skin permeability are highly relevant with respect to transdermal drug delivery, assessment of dermal exposure to industrial and environmental hazards as well as in developing fundamental understanding of biotransport processes.Present review focuses on various mathematical models developed till now for the transdermal drug delivery along with their applications.展开更多
文摘Ocular drug delivery is one of the most attention-grabbing and challenging endeavors among the numerous existing drug delivery systems.From a drug delivery point of view,eye is an intricate organ to investigate and explore.In spite of many limitations,advancements have been made with the intention of improving the residence time or permeation of the drug in the ocular region.Poor bioavailability of topically administered drugs is the major issue pertaining to ocular drug delivery.Several efforts have been made towards improving precorneal residence time and corneal penetration,e.g.iontophoresis,prodrugs and ionpairing,etc.Prodrug approach(chemical approach)has been explored by the formulation scientists to optimize the physicochemical and biochemical properties of drug molecules for improving ocular bioavailability.Formulation of ocular prodrugs is a challenging task as they should exhibit optimum chemical stability as well as enzymatic liability so that they are converted into parent drug after administration at the desired pace.This review will encompass the concept of derivatization and recent academic and industrial advancements in the field of ocular prodrugs.The progression in prodrug designing holds a potential future for ophthalmic drug delivery.
文摘In vivo skin permeation studies are considered gold standard but are difficult to perform and evaluate due to ethical issues and complexity of process involved. In recent past, a useful tool has been developed by combining the computational modeling and experimental data for expounding biological complexity. Modeling of percutaneous permeation studies provides an ethical and viable alternative to laboratory experimentation. Scientists are exploring complex models in magnificent details with advancement in computational power and technology. Mathematical models of skin permeability are highly relevant with respect to transdermal drug delivery, assessment of dermal exposure to industrial and environmental hazards as well as in developing fundamental understanding of biotransport processes.Present review focuses on various mathematical models developed till now for the transdermal drug delivery along with their applications.
