The use of a novel aldehyde-functionalized chitosan hydrogel to prepare porous tubular scaffolds for vascular tissue engineering application

Azevedo, Eduardo Pereira de; Kumar, Vijay

doi:10.21577/0100-4042.20160124

Cited by 2 publications

(1 citation statement)

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“…Hydrogels are structures with three-dimensional polymer chains that can act as carriers of active principles, including substances with antioxidant activity to be used in the prevention of early skin aging [3]. Recent research has shown good results for hydrogels formed with chitosan [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

<strong>Molecular Docking Study of Phenolic Compounds with Chitosan: Planning of Biodegradable Hydrogels with Antioxidant Action</strong>

Delmondes

2018

Proceedings of MOL2NET 2018, International Conference on Multidisciplinary Sciences, 4th Edition

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Today, the cosmetics segment has become one of the most successful areas in the world. Among the most varied types of cosmetics on the market, hydrogels are highlighted because they have characteristics similar to the biological fluids. Hydrogels are structures with threedimensional polymer chains that can act as carriers of active principles, including substances with antioxidant activity, that can be used to prevent premature aging of the skin. Recent research has shown good results for hydrogels formed with chitosan, which is a naturally occurring, nontoxic and biodegradable polymer. Thus, the objective of this study was to perform the interaction of the phenolic compounds vitamin E (tocopherol), gallic acid, ferulic acid, artemetin and quercetin, which possess antioxidant activity, with the chitosan, aiming at hydrogel planning with antioxidant activity. The study was performed by molecular docking. The phenolic compounds were obtained by PUBCHEM, while chitosan was obtained through the PolySac3DB.For molecular docking, polar hydrogen and gasteiger charges were added to the chitosan molecule and to the ligands. The method used was the genetic algorithm Lamarckian in 100 runs. All compounds interacted with chitosan attractively but quercetin was the most stable interacting compound with energy expenditure at -3.92 kcal / mol, whereas gallic acid, ferulic acid, caffeic acid , vitamin E (tocopherol) and artemetin had energy expenditure at -2.25 kcal / mol, -2.12 kcal / mol, -2.59 kcal / mol, -2.44 kcal / mol and -2.73 kcal / mol, respectively. The study showed that both compounds have molecular conditions for interacting with chitosanbased hydrogels, but for faster releases, compounds with less stable interactions (higher energy) can be used, while for longer releases, quercetin may be used, since its interaction stability is greater.

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Section: Introductionmentioning

confidence: 99%