Mixtures of triblock copolymers E(62)P(39)E(62) and E(137)S(18)E(137) potential for drug delivery from in situ gelling micellar formulations

The gelation behaviour of concentrated micellar solutions of mixtures of a block copolymer of ethylene oxide and styrene oxide (E(137)S(18)E(137)) with one of ethylene oxide and propylene oxide (E(62)P(39)E(62)) has been investigated. Over a wide range of compositions, up to 90 wt.% E(137)S(18)E(137...

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Bibliographic Details
Published in:International journal of pharmaceutics 2007-01, Vol.328 (1), p.95
Main Authors: Pinho, M Elenir N, Costa, Flávia de M L L, Filho, Fernando B S, Ricardo, Nagila M P S, Yeates, Stephen G, Attwood, David, Booth, Colin
Format: Article
Language:English
Subjects:
Antifungal Agents - administration & dosage
Chemistry, Pharmaceutical
Drug Delivery Systems
Epoxy Compounds - chemistry
Ethylene Oxide - chemistry
Gels
Griseofulvin - administration & dosage
Micelles
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Summary:The gelation behaviour of concentrated micellar solutions of mixtures of a block copolymer of ethylene oxide and styrene oxide (E(137)S(18)E(137)) with one of ethylene oxide and propylene oxide (E(62)P(39)E(62)) has been investigated. Over a wide range of compositions, up to 90 wt.% E(137)S(18)E(137) in the mixture, gelation resembled that of solutions of E(62)P(39)E(62) alone, i.e. they gelled on heating from ambient to body temperature. In related experiments, using the aromatic drug griseofulvin as a comparative standard, it was demonstrated that solubilisation efficiency of dilute micellar solutions of the mixtures with 80 wt.% or more E(137)S(18)E(137) approached that of solutions of E(137)S(18)E(137) alone. Thus it was shown that the mixed system could have both the satisfactory solubilisation capacity of micellar solutions of E(137)S(18)E(137) and the desirable gelation characteristics of E(62)P(39)E(62), and so have potential for use in drug release applications involving in situ gelation.
ISSN:0378-5173