Abstract
The demand for wound care products, especially advanced and active wound care products is huge. In this study, gellan gum (GG) and virgin coconut oil (VCO) were utilized to develop microemulsion-based hydrogel for wound dressing materials. A ternary phase diagram was constructed to obtain an optimized ratio of VCO, water, and surfactant to produce VCO microemulsion. The VCO microemulsion was incorporated into gellan gum (GG) hydrogel (GVCO) and their chemical interaction, mechanical performance, physical properties, and thermal behavior were examined. The stress-at-break (σ) and Young’s modulus (YM) of GVCO hydrogel films were increased along with thermal behavior with the inclusion of VCO microemulsion. The swelling degree of GVCO hydrogel decreased as the VCO microemulsion increased and the water vapor transmission rate of GVCO hydrogels was comparable to commercial dressing in the range of 332–391 g m−2 d−1. The qualitative antibacterial activities do not show any inhibition against Gram-negative (Escherichia coli and Klebsiella pneumoniae) and Gram-positive (Staphylococcus aureus and Bacillus subtilis) bacteria. In vivo studies on Sprague–Dawley rats show the wound contraction of GVCO hydrogel is best (95 ± 2%) after the 14th day compared to a commercial dressing of Smith and Nephew Opsite post-op waterproof dressing, and this result is supported by the ultrasound images of wound skin and histological evaluation of the wound. The findings suggest that GVCO hydrogel has the potential to be developed as a biomedical material.
Highlights
There are an overwhelming number of wound dressings available in the market
Water is immiscible with virgin coconut oil (VCO) due to its high interfacial tension, which is typical for oils with water
The optimum ratio from the ternary phase diagram was chosen in preparing the gellan gum–virgin coconut oil hydrogels (GVCO)
Summary
There are an overwhelming number of wound dressings available in the market. The high demand for wound dressing is due to the increasing number of wound cases recorded. The oil has been applied in treating wounds in young rats and healed faster by decreasing time for complete epithelization, and results in a significant increase of collagen production, which indicates higher collagen crosslinking. A few studies have been reporting the use of biopolymers with essential oil to produce a dressing material [21]. Gellan gum hydrogel films with lavender/tea tree oil showed 98% wound contraction in rats after ten days of treatment and histological images displayed completely healed epidermis [21]. Another study used poly(lactic acid) (PLA) polymer and babassu oil and reported that this material provides a good option for use as wound dressings—films showed a recommended value of the water vapor transmission rate (WVTR), maintained a humid environment above the wound, had good cytotoxicity on normal human keratinocytes (HaCaT), stimulated the keratinocytes migration, and inhibited Pseudomonas aeruginosa growth [22].
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