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Curdlan-Based Hydrogels for Potential Application as Dressings for Promotion of Skin Wound Healing—Preliminary In Vitro Studies

Aleksandra Nurzyńska, Katarzyna Klimek, K. Pałka, Łukasz Szajnecki, Grażyna Ginalska

2021Materials40 citationsDOIOpen Access PDF

Abstract

The aim of this work was to establish whether novel curdlan-based hydrogels enriched with Ca2+ ions may be considered as potential candidates for dressings, for the acceleration of skin wound healing. Firstly, biomaterials were allocated for evaluation of structural and mechanical properties. Subsequently, the ability of hydrogels to absorb simulated wound fluid and water vapor permeability, as well their capacity to release calcium ions, was evaluated. The biocompatibility of biomaterials was assessed using normal human skin fibroblasts. Importantly, the main features of the obtained curdlan-based hydrogels were compared with those of KALTOSTAT® (a commercial calcium sodium alginate wound dressing). The obtained results showed that curdlan-based biomaterials possessed a mesoporous structure (pore diameter ranged from 14–48 nm) and exhibited a good ability to absorb simulated wound fluid (swelling ratio close to 974–1229%). Moreover, in a wet state, they enabled proper water vapor transmission rate (>2000 g/m2/day), thanks to their hydrogel structure. Finally, it was found that biomaterial composed of 11 wt.% of curdlan (Cur_11%) possessed the most desirable biological properties in vitro. It released a beneficial amount of calcium ions to the aqueous environment (approximately 6.12 mM), which significantly enhanced fibroblast viability and proliferation. Taking into account the beneficial properties of Cur_11% biomaterial, it seems justified to subject it to more advanced cell culture experiments in vitro and to in vivo studies in order to determine its precise influence on skin wound healing.

Topics & Concepts

Self-healing hydrogelsBiocompatibilityBiomaterialWound healingBiomedical engineeringCurdlanMaterials scienceCalciumSwellingFibroblastDermal fibroblastCalcium alginateChemistryNanotechnologyBiophysicsIn vitroComposite materialSurgeryPolymer chemistryBiochemistryMedicineMetallurgyPolysaccharideBiologyWound Healing and TreatmentsDiabetic Foot Ulcer Assessment and ManagementElectrospun Nanofibers in Biomedical Applications
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