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Oxygen Nanobubbles-Embedded Hydrogel as Wound Dressing to Accelerate Healing

Wen Ren, Victoria Messerschmidt, Michael Tsipursky, Joseph Irudayaraj

2023ACS Applied Nano Materials23 citationsDOIOpen Access PDF

Abstract

Herein, we propose an oxygen nanobubbles-embedded hydrogel (ONB-G) with carbopol for oxygenation of wounds to accelerate the wound healing process. We integrate carbopol, hydrogel, and dextran-based oxygen nanobubbles (ONBs) to prepare ONB-G where ONBs can hold and release oxygen to accelerate wound healing. Oxygen release tests showed that the proposed ONB-G could encapsulate oxygen in the hydrogels for up to 34 days; meanwhile, fluorescence studies indicated that the ONB-G could maintain high oxygen levels for up to 4 weeks. The effect of carbopol concentration on the oxygen release capacity and rheological features of the ONB-G were also investigated along with the sterility of ONB-G. HDFa cell-based studies were first conducted to evaluate the viability, proliferation, and revival of cells in hypoxia. Scratch assay and mRNA expression studies indicated the potential benefit for wound closure. Histological evaluation of tissues with a pig model with incision and punch wounds showed that treatment with ONB-G exhibited improved healing compared with hydrogel without ONBs or treated without the gel. Our studies show that dextran-shell ONBs embedded in a gel (ONB-G) have the potential to accelerate wound healing, given its oxygen-holding capacity and release properties.

Topics & Concepts

Wound healingOxygenSelf-healing hydrogelsDextranChemistryViability assayOxygenationHypoxia (environmental)Biomedical engineeringSurgeryCellPolymer chemistryChromatographyMedicineBiochemistryAnesthesiaOrganic chemistryWound Healing and TreatmentsDiabetic Foot Ulcer Assessment and ManagementHemostasis and retained surgical items
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