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Synthesis and characterization of Hyaluronic Acid (HA) modified polymeric composite for effective treatment of wound healing by transdermal drug delivery system (TDDS)

Hina Raza, Asmara Ashraf, Rahat Shamim, Suryyia Manzoor, Younas Sohail, Muhammad Imran Khan, Nadeem Raza, Nasir Shakeel, Komal Aziz Gill, Adel El‐marghany, Sikandar Aftab

2023Scientific Reports21 citationsDOIOpen Access PDF

Abstract

The present study aimed to fabricate a novel polymeric spongy composite to enhance skin regeneration composed of Nystatin (antifungal agent) and Silver Nanoparticles (AgNps). Different formulations (F1-F8) were developed & characterized by using various analytical techniques. AgNps synthesized by chemical reduction method showed spherical morphology 2 µm in size showed by SEM and XRD. A fine porous structure of gel embedded with AgNps having an amorphous structure with 10 % crystallinity due to AgNps was found. IR spectra revealed no chemical interaction between polymers and Nystatin. An increase in thermal stability of formulation was observed till 700 ℃ analyzed by Differential Scanning Calorimetry. Cytotoxic analysis on L929 mouse skin fibroblast cells showed a decrease in cell viability as Ag concentration increased (inactivating Fibroblast and keratinocytes) while 10 mg composition was found safest concentration (94%). Optimized formulation (F2) presented in-vitro drug release up to 90.59% ± 0.76 at pH 7.4, swelling studies (87.5% ± 0.57), water retention (26.60 ± 0.34), pH (5.31 ± 0.03). In the animal burn model, the group that received CHG/Ag/Nystatin healed the wound significantly (p < 0.05). These results suggested that optimized carrier can be used for other anti-fungal drugs facilitating the early healing of the wound.

Topics & Concepts

NystatinTransdermalCrystallinityWound healingDifferential scanning calorimetryHyaluronic acidDermal fibroblastNuclear chemistrySwellingChitosanChemistryViability assayAntifungal drugHyaluronidaseFibroblastMaterials sciencePharmacologyAntifungalIn vitroMedicineSurgeryBiochemistryComposite materialPhysicsCrystallographyThermodynamicsDermatologyAnatomyEnzymeAdvancements in Transdermal Drug DeliveryWound Healing and TreatmentsSilk-based biomaterials and applications
Synthesis and characterization of Hyaluronic Acid (HA) modified polymeric composite for effective treatment of wound healing by transdermal drug delivery system (TDDS) | Litcius