Le pubblicazioni dei componenti del gruppo di ricerca.
2012
Dalmoro, Annalisa; Barba, Anna Angela; Lamberti, Gaetano; Grassi, Mario; D'Amore, Matteo
Pharmaceutical applications of biocompatible polymer blends containing sodium alginate Journal Article
In: Advances in Polymer Technology, vol. 31, no 3, pp. 219–230, 2012, ISSN: 07306679.
Abstract | Links | BibTeX | Tags: Alginate gel film, Alginate shell{–}core particles, Biocompatibility, Crosslinking, Hydrogel Characterization, Hydrogels, Micro and Nano Vectors
@article{Dalmoro2012a,
title = {Pharmaceutical applications of biocompatible polymer blends containing sodium alginate},
author = { Annalisa Dalmoro and Anna Angela Barba and Gaetano Lamberti and Mario Grassi and Matteo D'Amore},
url = {http://doi.wiley.com/10.1002/adv.21276},
doi = {10.1002/adv.21276},
issn = {07306679},
year = {2012},
date = {2012-09-01},
journal = {Advances in Polymer Technology},
volume = {31},
number = {3},
pages = {219--230},
publisher = {Wiley Subscription Services, Inc., A Wiley Company},
abstract = {Biocompatible polymer blends, such as alginate blends, have a widespread use in pharmaceutical and medical applications due to their specific features, such as biodegradation, adhesiveness, and thermo- and pH sensitivity and that can be obtained from the mixture composition. In this work, the use of alginate blends was tested in a novel production methodology of therapeutic dosage forms based on polymeric chain reticulation phenomena induced by exposure to bivalent ions. Two kinds of sodium alginate were used to obtain gel films (structured films) in blends with Pluronic F127®. The blends were considered for applications in gel paving of drug-eluting stents. Sodium alginate was also used in shell\textendashcore particle production (structured particles) to obtain shell-barrier reducing drug release in the preparative steps (see wash operations). Both structures, films and particles, were obtained using Cu2+ and Ca2+ ions, respectively. Film/shell barrier properties were tested in dissolution experiments using vitamin B12 as an active molecule model. Experimental work demonstrated that the alginate composition is a crucial point in defining reticulated structures.},
keywords = {Alginate gel film, Alginate shell{\textendash}core particles, Biocompatibility, Crosslinking, Hydrogel Characterization, Hydrogels, Micro and Nano Vectors},
pubstate = {published},
tppubtype = {article}
}
Biocompatible polymer blends, such as alginate blends, have a widespread use in pharmaceutical and medical applications due to their specific features, such as biodegradation, adhesiveness, and thermo- and pH sensitivity and that can be obtained from the mixture composition. In this work, the use of alginate blends was tested in a novel production methodology of therapeutic dosage forms based on polymeric chain reticulation phenomena induced by exposure to bivalent ions. Two kinds of sodium alginate were used to obtain gel films (structured films) in blends with Pluronic F127®. The blends were considered for applications in gel paving of drug-eluting stents. Sodium alginate was also used in shell–core particle production (structured particles) to obtain shell-barrier reducing drug release in the preparative steps (see wash operations). Both structures, films and particles, were obtained using Cu2+ and Ca2+ ions, respectively. Film/shell barrier properties were tested in dissolution experiments using vitamin B12 as an active molecule model. Experimental work demonstrated that the alginate composition is a crucial point in defining reticulated structures.