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Fabrication of <i>In Situ</i> Layered Hydrogel Scaffold for the Co-delivery of PGDF-BB/Chlorhexidine to Regulate Proinflammatory Cytokines, Growth Factors, and MMP-9 in a Diabetic Skin Defect Albino Rat Model

Ahana Banerjee, Veena Koul, Jayanta Bhattacharyya

2021Biomacromolecules30 citationsDOI

Abstract

Diabetes mellitus (DM)-associated impairments in wound healing include prolonged inflammation, the overexpression of matrix metalloproteases (MMPs), and low levels of growth factors at the wound site. To this end, a layer-by-layer scaffold (SL-B-L) made of cross-linked silk fibroin and hyaluronic acid is developed to deliver chlorhexidine, an antimicrobial agent and an MMP-9 inhibitor, along with the PDGF-BB protein. SL-B-L exhibited highly porous morphology. Diabetic rats treated with SL-B-L demonstrated an early wound closure, a fully reconstructed epithelial layer by 14 days, and reduced levels of IL-6, TNF-α, TGF-β1, and MMP-9. Interestingly, SL-B-L treatment increased angiogenesis, the bioavailability of collagen, DNA content, and VEGF-A levels. Furthermore, enhanced keratinocyte–fibroblast interaction along with ordered collagen deposition was observed in SL-B-L-treated rats. Most interestingly, when compared with a clinically used scaffold SEESKIN+, SL-B-L outperformed in promoting wound healing in a diabetic rat model by regulating the inflammation while delivering growth factor and the MMP-9 inhibitor.

Topics & Concepts

Proinflammatory cytokineMatrix metalloproteinaseAngiogenesisWound healingChemistryInflammationHyaluronic acidFibroblastScaffoldTransforming growth factorPharmacologyFibroinCell biologyCancer researchImmunologyBiochemistryMedicineBiomedical engineeringMaterials scienceAnatomyBiologySILKIn vitroComposite materialWound Healing and TreatmentsSilk-based biomaterials and applicationsPeriodontal Regeneration and Treatments
Fabrication of <i>In Situ</i> Layered Hydrogel Scaffold for the Co-delivery of PGDF-BB/Chlorhexidine to Regulate Proinflammatory Cytokines, Growth Factors, and MMP-9 in a Diabetic Skin Defect Albino Rat Model | Litcius