| Literature DB >> 30600045 |
Eliadna de Lemos Vasconcelos Silva1, Antônia Carla de Jesus Oliveira1, Yuri Basílio Gomes Patriota1, António José Ribeiro2, Francisco Veiga2, Fernando Hallwass3, Edson Cavalcanti Silva-Filho4, Durcilene Alves da Silva5, Monica Felts de La Roca Soares1, Almir Gonçalves Wanderley6, José Lamartine Soares-Sobrinho7.
Abstract
Cashew gum (CG) is a biopolymer that presents a favorable chemical environment for structural modifications, which leads to more stable and resistant colloidal systems. The gum was subjected to an acetylation reaction using a fast, simple, solvent-free and low cost methodology. The derivative was characterized by infrared and NMR spectroscopy, elemental analysis, coefficient of solubility and zeta potential. The modified biopolymer was used as a platform for drug delivery systems using insulin as a model drug. Nanoparticles were developed through the technique of polyelectrolytic complexation and were characterized by size, surface charge, entrapment efficiency and gastrointestinal release profile. The nanoparticles presented size of 460 nm with a 52.5% efficiency of entrapment of insulin and the electrostatic stabilization was suggested by the zeta potential of + 30.6 mV. Sustained release of insulin was observed for up to 24 h. The results showed that acetylated cashew gum (ACG) presented potential as a vehicle for sustained oral insulin release.Entities:
Keywords: Acetylation; Cashew gum; Drug release; Insulin; Nanoparticle; Oral delivery
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Year: 2018 PMID: 30600045 DOI: 10.1016/j.carbpol.2018.11.071
Source DB: PubMed Journal: Carbohydr Polym ISSN: 0144-8617 Impact factor: 9.381