Bio‐Multifunctional Hydrogel Patches for Repairing Full‐Thickness Abdominal Wall Defects

Developing bio‐multifunctional patches with natural extracellular matrix‐like structures, excellent high adhesion in the wet state, self‐healing ability, antibacterial activity, and favorable cell responses for accelerating tissue healing is highly desirable in clinical applications. Herein, bio‐mul...

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Bibliographic Details
Published in:Advanced functional materials 2021-10, Vol.31 (41), p.n/a
Main Authors: Yin, Xiangyi, Hao, Yuanping, Lu, Yun, Zhang, Dongjie, Zhao, Yaodong, Mei, Li, Sui, Kunyan, Zhou, Qihui, Hu, Jilin
Format: Article
Language:English
Subjects:
Abdomen
abdominal wall defect
Adhesion
Aldehydes
Chitosan
Defects
Ethylene glycol
Finite element method
Growth factors
Healing
high adhesion
Hydrogels
Materials science
Mechanical properties
Patches (structures)
Repair
Thickness
tissue repair
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Summary:Developing bio‐multifunctional patches with natural extracellular matrix‐like structures, excellent high adhesion in the wet state, self‐healing ability, antibacterial activity, and favorable cell responses for accelerating tissue healing is highly desirable in clinical applications. Herein, bio‐multifunctional composite hydrogels are developed by coupling carboxymethyl chitosan and 4‐arm poly (ethylene glycol) aldehyde for full‐thickness abdominal wall defect repair. The prepared hydrogels exhibit excellent self‐healing and mechanical properties, high adhesion in the wet state, and significant antibacterial ability. In vitro cellular experiments show that the hydrogels combined with recombinant bovine basic fibroblast growth factor remarkably promote cell proliferation and then accelerate full‐thickness abdominal wall defect repair in a rat model. The histomorphological evaluation shows that compared to the commercial polypropylene mesh used clinically, the designed hydrogel patches facilitate an increase in the thickness and integrity of the abdominal wall tissue by upregulating the production of Ki67, enhancing the formation of collagen, inducing neovascularization, and inhibiting inflammation by reducing the expression of IL‐6, TNF‐α, and IL‐1β. The results demonstrate that this novel bio‐multifunctional hydrogel patch holds great potential for the treatment of full‐thickness abdominal wall defects. Bio‐multifunctional 4‐arm poly (ethylene glycol) aldehyde/carboxymethyl chitosan/basic fibroblast growth factor hydrogel patches are developed via a Schiff‐base reaction to repair full‐thickness abdominal wall defects. The injectable hydrogels show excellent self‐healing and mechanical properties, high wet‐tissue adhesion, and antibacterial ability. They promote cell proliferation and then accelerate full‐thickness abdominal wall defect repair, indicating great potential for the treatment of such defects.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.202105614