Materials & Design (Oct 2024)

Photothermal-enhanced detoxification metal-organic framework microneedle array for 2-chloroethyl ethyl sulfide-poisoned wound healing

  • Shuai Guo,
  • Shun Yao,
  • Huanchun Xing,
  • Wenbin Cao,
  • Jianyu Wang,
  • Xinran Zhao,
  • Yajing Wei,
  • Ruizhi Lin,
  • Xin Sui,
  • Yuan Luo,
  • Jun Deng,
  • Jun Yang,
  • Yongan Wang

Journal volume & issue
Vol. 246
p. 113286

Abstract

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Sulfur mustard (2,2′-dichloroethylsulfide; SM) is a bifunctional alkylating agent that can easily penetrate skin and cause persistent pain and damage. Effective biological dressings are required to treat wounds caused or poisoned by SM. Though the use of SM is regulated under the Chemical Weapons Convention, it is still a threat during wars and terrorist attacks. Herein, we present a photothermal-enhanced detoxification microneedles array (MNA) encapsulated with ZnIn2S4@UiO-66-NH2 (ZnInS/UIO) catalysts for the treatment of 2-chloroethyl ethyl sulfide (CEES, SM analog)-poisoned wounds under simulated sunlight (SSL) irradiation. Due to the excellent photothermal detoxification capability possessed by ZnInS/UIO, the conversion rate of CEES can be significantly increased under SSL exposure. When encased in a polyvinyl alcohol (PVA) MNA and piercing into the skin, ZnInS/UIO catalysts can be released quickly from MNA for detoxification. After applying the resultant ZnInS/UIO-MNA to the CEES-poisoned wound bed, acceleration of the wound healing process and a reduced inflammatory response can be confirmed. In conclusion, ZnInS/UIO-MNA has encouraging potential as a first-aid dressing for CEES-poisoned wound healing in battlefields and injuries related to acts of terrorism.

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