| Literature DB >> 25255173 |
Wujie Zhang1, Kirsten Mary Mahuta1, Brandon Anthony Mikulski1, Jenna Nicole Harvestine1, James Zachary Crouse1, Jung Chull Lee1, Matey Georgiev Kaltchev1, Charles Samuel Tritt2.
Abstract
Pectin-based hydrogel carriers have been studied and shown to have promising applications for drug delivery to the lower GI tract, especially to the colonic region. However, making sure these hydrogel carriers can pass through the upper GI tract and reach the targeted regions, after oral administration, still remains a challenge to overcome. A solution to this problem is to promote stronger cross-linking interactions within the pectin-based hydrogel network. The combined usage of a divalent cation (Ca(2+)) and the cationic biopolymer oligochitosan has shown to improve the stability of pectin-based hydrogel systems - suggesting that these two cross-linkers may be used to eventually help improve pectin-based hydrogel systems for colonic drug delivery methods.Entities:
Keywords: Colonic drug-delivery; hydrogel; microcapsule; microsphere; pectin
Mesh:
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Year: 2014 PMID: 25255173 DOI: 10.3109/10837450.2014.965327
Source DB: PubMed Journal: Pharm Dev Technol ISSN: 1083-7450 Impact factor: 3.133