AI Article Synopsis
- The study focuses on creating a two-layer wound dressing designed to prevent infection and promote healing, utilizing advanced materials and 3D printing technology.
- The top layer contains a hydrogel made from pectin, polyacrylic acid, and platelet-rich fibrin, while the bottom layer includes pectin, polyacrylic acid, and simvastatin, which work together to boost blood vessel formation.
- Results show that this bilayer scaffold significantly enhances cell viability and wound closure rate, suggesting it could be an effective solution for skin tissue regeneration.
Article Abstract
Designing multifunctional wound dressings is a prerequisite to prevent infection and stimulate healing. In this study, a bilayer scaffold (BS) with a top layer (TL) comprising 3D printed pectin/polyacrylic acid/platelet rich fibrin hydrogel (Pec/PAA/PRF) and a bottom nanofibrous layer (NL) containing Pec/PAA/simvastatin (SIM) was produced. The biodegradable and biocompatible polymers Pec and PAA were cross-linked to form hydrogels via Ca activation through galacturonate linkage and chelation, respectively. PRF as an autologous growth factor (GF) source and SIM together augmented angiogenesis and neovascularization. Because of 3D printing, the BS possessed a uniform distribution of PRF in TL and an average fiber diameter of 96.71 ± 18.14 nm was obtained in NL. The Young's modulus of BS was recorded as 6.02 ± 0.31 MPa and its elongation at break was measured as 30.16 ± 2.70 %. The wound dressing gradually released growth factors over 7 days of investigation. Furthermore, the BS significantly outperformed other groups in increasing cell viability and in vivo wound closure rate (95.80 ± 3.47 % after 14 days). Wounds covered with BS healed faster with more collagen deposition and re-epithelialization. The results demonstrate that the BS can be a potential remedy for skin tissue regeneration.
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| http://dx.doi.org/10.1016/j.ijbiomac.2024.130954 | DOI Listing |
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