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Long-Acting Antibacterial Hydrogels Constructed by Interface-Induced Directional Assembly.

Xiongtao JiNa WangJingkang WangYunhai HuangTing WangXin HuangHongxun Hao
Published in: ACS applied materials & interfaces (2024)
Self-assembled supermolecular hydrogels of therapeutic agents without structural modification are of great significance in biomedical applications. Nevertheless, the complex conformations and elusive interactions of therapeutic molecules limit the controlled assembly of hydrogels. Molecules at the interface might have different arrangements and assemblies compared to those in bulk aqueous solution, which could potentially alter the selectivity of supramolecular polymorphs. However, this effect is still not well understood. Here, we demonstrate the interface-induced self-assembly of fibers for hydrogels, which is distinct from the spherical aggregates in the bulk aqueous solution, using cephradine (CEP) as a model compound. This phenomenon is caused by the packing of anisotropic molecules at the interface, and it can be applied to control the supramolecular polymorphism for the direct self-assembly of hydrogels of therapeutic agents. The interface-induced hydrogel exhibits a high degree of adjustable release and a long-acting bactericidal effect.
Keyphrases
  • drug delivery
  • aqueous solution
  • hyaluronic acid
  • tissue engineering
  • wound healing
  • high glucose
  • extracellular matrix
  • drug release
  • diabetic rats
  • drug induced
  • endothelial cells
  • silver nanoparticles