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Design of a Multifunctional Biomaterial Inspired by Ancient Chinese Medicine for Hair Regeneration in Burned Skin.

Zhaowenbin ZhangQiuxia DaiYu ZhangHui ZhuangEndian WangQing XuLingling MaChengtie WuZhiguang HuanFeng GuoJiang Chang
Published in: ACS applied materials & interfaces (2020)
In deep burn injuries, the dermis of the skin is often severely damaged, and hair follicles are also lost and lose the potential for regeneration. Therefore, the development of wound dressings that promote hair follicle regeneration has important clinical significance. In this study, inspired by an ancient Chinese medicine prescription, a novel fibrous membrane (P/Qu/Cup; P, PCL; Qu, quercetin; Cup, cuprorivaite, CaCuSi4O10) containing quercetin-copper (Qu-Cu) chelates was fabricated by using quercetin and a highly bioactive bioceramic (CaCuSi4O10) incorporated in PCL/gelatin electrospun fibers. The fibrous membrane can effectively release Qu and Cu ions to induce proliferation, migration, and differentiation of skin and hair follicle related cells, and the Qu, Cu ions, and Si ions released from the composite membrane revealed synergistic activity to stimulate hair follicle regeneration and wound healing. Our study demonstrated that the analysis of the common components in ancient Chinese prescription is an effective approach to design novel bioactive materials for regenerative medicine.
Keyphrases
  • wound healing
  • stem cells
  • aqueous solution
  • quantum dots
  • induced apoptosis
  • tissue engineering
  • soft tissue
  • risk assessment
  • climate change
  • water soluble
  • cell cycle arrest
  • ionic liquid