Physical characterization of alginate-Pluronic F127 gel for endoluminal NABDs delivery

Here we focus the attention on the physical characteristics of a highly biocompatible hydrogel made up of crosslinked alginate and Pluronic F127 (PF127). This is a composite polymeric blend we propose for artery endoluminal delivery of an emerging class of molecules named nucleic acid based drugs (N...

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Veröffentlicht in:	Soft matter 2014-02, Vol.1 (5), p.729-737
Hauptverfasser:	Abrami, Michela, D'Agostino, Ilenia, Milcovich, Gesmi, Fiorentino, Simona, Farra, Rossella, Asaro, Fioretta, Lapasin, Romano, Grassi, Gabriele, Grassi, Mario
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Schlagworte:	Alginates Alginates - chemistry Drug Carriers - chemistry Gels - chemistry Micelles Poloxamer - chemistry
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container_title	Soft matter
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creator	Abrami, Michela D'Agostino, Ilenia Milcovich, Gesmi Fiorentino, Simona Farra, Rossella Asaro, Fioretta Lapasin, Romano Grassi, Gabriele Grassi, Mario
description	Here we focus the attention on the physical characteristics of a highly biocompatible hydrogel made up of crosslinked alginate and Pluronic F127 (PF127). This is a composite polymeric blend we propose for artery endoluminal delivery of an emerging class of molecules named nucleic acid based drugs (NABDs). The physical characterization of our composite gel, i.e. mesh size distribution and PF127-alginate mutual organization after crosslinking, can significantly determine the NABDs release kinetics. Thus, to explore these aspects, different technical approaches, i.e. rheology, low/high field NMR and TEM, were used. While rheology provided information at the macroscopic and nano-level, the other three approaches gave details at the nano-level. We observe that Pluronic micelles, organizing in cubic ordered domains, generate, upon alginate crosslinking, the formation of meshes ( 150 nm) larger than those occurring in a Pluronic-free alginate network ( 25 nm). Nevertheless, smaller alginate meshes are still on and can just host un-structured Pluronic micelles and water. Accordingly, the gel structure is quite inhomogeneous, where big meshes (filled by crystalline Pluronic) co-exist with smaller meshes (hosting water and un-structured PF127 micelles). While big meshes offer a considerable hindering action on a diffusing solute, smaller ones represent a sort of free space where solute diffusion is faster. The presence of big and small meshes indicates that drug release may follow a double kinetics characterized by a fast and slow release. Notably, this behavior is considered appropriate for endoluminal drug release to the arterial wall. Pluronic micelles, organized in ordered domains, induce the distortion of the alginate network. Thus, big meshes filled by ordered domains coexist with smaller meshes that can host only single micelles.
doi_str_mv	10.1039/c3sm51873f
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source	MEDLINE; Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Alginates Alginates - chemistry Drug Carriers - chemistry Gels - chemistry Micelles Poloxamer - chemistry
title	Physical characterization of alginate-Pluronic F127 gel for endoluminal NABDs delivery
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