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Plant Polyphenol‐Based Injectable Hydrogels: Advances and Biomedical Applications

Renkai Zhang, Qiuyue Ma, Nannan Zheng, Ruiwen Wang, Sonja Visentin, Liangcan He, Shaoqin Liu

2025Advanced Healthcare Materials24 citationsDOIOpen Access PDF

Abstract

Plant polyphenol-based hydrogels, known for their biocompatibility and adhesive properties, have emerged as promising materials in biomedical applications. These hydrogels leverage the catechol group's ability to form stable bonds in moist environments, similar to mussel adhesive proteins. This review provides a comprehensive overview of their synthesis, adhesion mechanisms, and applications, particularly in wound healing, tissue regeneration, and drug delivery. However, challenges related to in vivo stability and long-term biocompatibility remain critical barriers to clinical translation. Future research should focus on enhancing the bioactivity, biocompatibility, and scalability of these hydrogels, while addressing concerns related to toxicity, immune responses, and large-scale manufacturing. Advances in artificial intelligence-assisted screening and 3D/4D bioprinting are expected to accelerate their development and clinical translation. Furthermore, the integration of biomimetic designs and responsive functionalities, such as pH or temperature sensitivity, holds promise for further improving their therapeutic efficacy. In conclusion, the development of multifunctional plant polyphenol-based hydrogels represents a promising frontier in advancing personalized medicine and minimally invasive treatments.

Topics & Concepts

Self-healing hydrogelsBiocompatibilityNanotechnologyMaterials scienceDrug delivery3D bioprintingTissue engineeringBiomedical engineeringMedicinePolymer chemistryMetallurgy3D Printing in Biomedical ResearchHydrogels: synthesis, properties, applicationsPolymer Surface Interaction Studies
Plant Polyphenol‐Based Injectable Hydrogels: Advances and Biomedical Applications | Litcius