Litcius/Paper detail

Chitosan-Based Coacervate Polymers for Propolis Encapsulation: Release and Cytotoxicity Studies

Tábata Prado Sato, Daphne C. R. Mello, Luana Marotta Reis de Vasconcellos, Artur J. M. Valente, Alexandre Luiz Souto Borges

2020International Journal of Molecular Sciences38 citationsDOIOpen Access PDF

Abstract

Chitosan-DNA (CS-DNA) and Chitosan-Pectin (CS-P) hydrogels were formulated as a sustained drug delivery carrier for drug delivery. For this, hydrogels were prepared by emulsion technique: mixing aqueous phase of the CS and DNA or P solution with benzyl alcohol using a high-performance dispersing instrument. Green Propolis (GP) was incorporated by imbibition: hydrogels were placed in GP aqueous solution (70 µg/mL) for 2 h. The specimens were freeze-dried and then characterized using different techniques. In vitro cell viability and morphology were also performed using the MG63 cell line. The presence of P was evidenced by the occurrence of a strong band at 1745 cm−1, also occurring in the blend. DNA and CS-DNA showed a strong band at 1650 cm−1, slightly shifted from the chitosan band. The sorption of GP induced a significant modification of the gel surface morphology and some phase separation occurs between chitosan and DNA. Drug release kinetics in water and in saliva follow a two-step mechanism. Significant biocompatibility revealed that these hydrogels were non-toxic and provided acceptable support for cell survival. Thus, the hydrogel complexation of chitosan with DNA and with Pectin provides favorable micro-environment for cell growth and is a viable alternative drug delivery system for Green Propolis.

Topics & Concepts

ChitosanSelf-healing hydrogelsBiocompatibilityCoacervateChemistryDrug deliveryVinyl alcoholEmulsionAqueous solutionPropolisCell encapsulationChromatographyNuclear chemistryChemical engineeringPolymer chemistryPolymerOrganic chemistryFood scienceEngineeringBee Products Chemical AnalysisProteins in Food SystemsAdvancements in Transdermal Drug Delivery