Collagen-Inspired 3D Printing Electrospinning Biomimetic Patch for Abdominal Wall Defect Regeneration

Repairing abdominal wall defects presents significant challenges, due to the high infection risk, poor biocompatibility, and insufficient mechanical strength associated with synthetic materials. To overcome these limitations, we developed a bioinspired multifunctional 3DPF patch by integrating 3D printing and electrospinning technologies. The core material of the patch is 4arm-PLGA-GPO (4A-GPO), synthesized by conjugating the Gly-Pro-Hyp (GPO) peptide sequence with 4arm-PLGA(4A), which significantly enhances bioactivity and mechanical properties. Additionally, the patch encapsulates basic fibroblast growth factor (bFGF) to stimulate cell proliferation and migration, while an antibacterial layer composes of emodin (EMO) and tobramycin to prevent infection. In vivo studies demonstrate the 3DPF patch effectively accelerates tissue repair by reducing fibrosis and adhesions, promoting angiogenesis and collagen deposition, and modulating the immune response. Transcriptomic analysis reveals that the patch downregulates IL-17 mediated inflammatory pathways while upregulating cell adhesion molecule-related pathways, synergistically facilitating microenvironment reconstruction. Furthermore, molecular docking studies suggest the patch interacts with key molecules such as VEGF and COL3, enhancing angiogenesis and matrix remodeling. In summary, this biomimetic patch, composed of bioactive materials with well-defined chemical compositions, integrates mechanical support, immune modulation, and antibacterial protection. by offering a comprehensive solution for abdominal wall repair, it holds significant potential for clinical translation in complex tissue engineering applications.