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Functionalized Electrospun Double-Layer Nanofibrous Scaffold for Wound Healing and Scar Inhibition.

Changming SuJing ChenXianrui XieZhongfei GaoZhenxin GuanXiu-Mei MoChunhua WangGui-Ge Hou
Published in: ACS omega (2022)
Considerable advances have been made in developing materials that promote wound healing and inhibit scar formation in clinical settings. However, some challenges, such as cumbersome treatment processes and determination of optimal treatment time, remain unresolved. Thus, developing a multifunctional wound dressing with both wound healing and scar inhibition properties is crucial. Here, we present an integrated electrospun fibrous composite membrane (MPC12) for wound healing and scar inhibition, consisting of a quaternized chitosan-loaded inner membrane (PCQC5) and quaternized silicone-loaded outer membrane (MQP12). The inner membrane effectively coagulates blood and promotes wound healing, and the outer membrane moisturizes, resists bacteria, and inhibits scar formation. In vivo evaluation in a rabbit ear model revealed that MPC12 treatment results in faster wound healing and better alleviation of scar hypertrophy than treatment with commercial products (KELO-COTE and MSSG). Our strategy offers an excellent solution for the potential integration of wound healing and scar inhibition.
Keyphrases
  • wound healing
  • drug delivery
  • mass spectrometry
  • risk assessment
  • climate change
  • replacement therapy
  • human health
  • tandem mass spectrometry
  • smoking cessation