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Enhancement of wound healing by a bilayer hydrogel and nanofiber scaffold infused with Calophyllum inophyllum oil and Platostoma palustre aqueous extract

Anh Hue Luong, Wei‐Chih Lin

2025Biomaterials Advances10 citationsDOIOpen Access PDF

Abstract

Natural wound dressings have attracted substantial interest among researchers due to their biocompatible, bioactive, and eco-friendly properties. This paper focuses on introducing the bio-engineered bilayer design, fabrication, and characterizations of a Calophyllum inophyllum seed oil (CIO) - loaded scaffold within a polyvinyl alcohol/sodium alginate (PVA/SA) matrix, fortified with Hsiantsao aqueous extract. The scaffold - consisting of a semi-hydrophobic hydrogel and a hydrophilic nanofiber - was successfully synthesized using polymerization and centrifugal electrospinning techniques. Engineered to create a synergistic effect; physiologically, the fabricated bilayer scaffold demonstrated increased flexibility in the stress-strain curve via elongation; it also exhibited prompt high water absorption and maintained a neutral pH value (7.125 to 7.325). Chemically, the scaffold showed superior biocompatibility, robust antioxidants (82.19 % ± 0.08 in DPPH scavenging, 90.23 % ± 0.22 in ABTS scavenging), and confirmed antimicrobial activities. In a rat wound model, the CIO-loaded PVA/SA/Hsiantsao scaffold markedly improved wound healing by day 15, reaching a wound closure rate of 98.22 % ± 0.82. Also, the scaffold degraded up to 47 % in vitro within a month, indicating its eco-friendly characteristics. From these findings, this study underscores the potential of the bilayer CIO-loaded PVA/SA/Hsiantsao scaffold as an advanced wound care dressing, setting the stage for prospective clinical applications. • A bilayer CIO-loaded PVA/SA scaffold was fabricated using Hsiantsao extract via polymerization and electrospinning. • Platostoma palustre (Hsiantsao) aqueous extract is rich in bioactive compounds, enhancing antioxidant and antimicrobial. • The scaffold promoted rapid wound healing of over 98% within 15 days. • The bilayer CIO-loaded PVA/SA/Hsiantsao scaffold has the potential to meet the ideal requirements for wound healing.

Topics & Concepts

ScaffoldNanofiberBilayerWound healingAqueous solutionAqueous extractMaterials scienceChemistryTraditional medicineBiomedical engineeringNanotechnologyMembraneMedicineOrganic chemistrySurgeryBiochemistryNatural Compound Pharmacology StudiesBotanical Research and ApplicationsPolysaccharides and Plant Cell Walls
Enhancement of wound healing by a bilayer hydrogel and nanofiber scaffold infused with Calophyllum inophyllum oil and Platostoma palustre aqueous extract | Litcius