Katarina Edsman scite author profile

The adhesion of pharmaceutical formulations to the mucosal tissue offers the possibility of creating an intimate and prolonged contact at the site of administration. This prolonged residence time can result in enhanced absorption and, in combination with a controlled release of the drug, also improved patient compliance by reducing the frequency of administration. During the almost 30 years over which mucoadhesion has been studied, a considerable amount of knowledge has been gained, and much has been learned about the different mechanisms occurring at the formulationmucus interface and the properties that affect these mechanisms. The in-vivo performance of a dosage form not only depends on the mechanisms occurring at the interface, but also on the properties of the total mucoadhesive complex: the dosage form, the mucosa and the interface between them. A wide variety of methods are used for studying mucoadhesion; some rather similar to the in-vivo situation and some mimicking the interface alone. In this review, the mucus surface, the methods used for the study of mucoadhesion, the different mechanisms involved in mucoadhesion and theories underpinning them have been described. The complexity of mucoadhesion when trying to systemize the subject will also be discussed. The last part of the review describes the buccal, nasal, ocular, vaginal and rectal routes and provides examples of what can be achieved in-vivo when using mucoadhesive formulations.

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Pharmaceutical applications for catanionic mixtures

Bramer

Dew

Edsman

2007

120

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Mixtures of oppositely charged surfactants, so called catanionic mixtures, are a growing area of research. These mixtures have been shown to form several different types of surfactant aggregates, such as micelles of various forms and sizes, and lamellar structures, such as vesicles. In this review, a short introduction to the field of catanionic mixtures is presented and the pharmaceutical possibilities offered by such mixtures are reviewed. There are several interesting ideas on how to apply catanionic mixtures to improve the delivery of, for example, drug compounds and DNA, or for HIV treatment.

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Rheological evaluation of Gelrite® in situ gels for ophthalmic use

Carlfors¹,

Edsman²,

Petersson

et al. 1998

European Journal of Pharmaceutical Sciences

183

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Katarina Edsman

Rheological evaluation of poloxamer as an in situ gel for ophthalmic use

Gel Properties of Hyaluronic Acid Dermal Fillers

Pharmaceutical applications of mucoadhesion for the non-oral routes

Pharmaceutical applications for catanionic mixtures

Rheological evaluation of Gelrite® in situ gels for ophthalmic use

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