A One-Nano MOF-Two-Functions Strategy Toward Self-healing, Anti-inflammatory, and Antibacterial Hydrogels for Infected Wound Repair

自愈水凝胶 伤口愈合 自愈 纳米- 化学 材料科学 医学 高分子化学 外科 复合材料 病理 替代医学
作者
Ya-Ling Fan,Hongjie Liu,Zili Wang,Zilin Wang,Li-Li Zhu,Yu‐Zhong Wang,Fei Song
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:497: 155037-155037 被引量:37
标识
DOI:10.1016/j.cej.2024.155037
摘要

• A “one-nano MOF-two-functions” strategy is proposed to prepare functional wound dressings. • Cur@Cu-MOF hydrogels have self-healing and co-delivery functions. • High antibacterial and anti-inflammatory properties are realized by the composite hydrogel. • Infected wound repair is enabled via promoted collagen deposition and angiogenesis. Porous metal–organic frameworks (MOF)-based hydrogels have recently attracted wide attention in sensing, catalysis, water treatment, and biomedicine. Yet, limited by challenges of insufficient stability, inordinate metal-ion leakage, and weak wound healing efficacy, the design of MOF-based hydrogel dressings for infected wounds has been rarely explored. Here, we propose a “one-nano MOF-two-functions” strategy to demonstrate the molecular engineering of a chemically stable nano MOF, which acts as both a carrier and a dynamic cross-linker, to fabricate functional composite hydrogels. The active amino groups of the MOF are employed to create dynamic networks with aldehyde-bearing alginate, ensuring excellent compatibility of the MOF with the polymer matrix and imparting effective self-healing properties to the resulting hydrogels. Simultaneously, two active ingredients, Cu nanoparticles (NPs) and curcumin, can be loaded into the nano MOF, achieving synergistic anti-inflammatory and antibacterial effects. Assisted by the mechanical stability and drug co-delivery in an infected full-thickness skin model, the MOF-based hydrogel can reduce the bacterial load on the wound by ∼10 3 times, and promote collagen deposition and angiogenesis by ∼1.5 and ∼3 times, compared with the control group. The “one-nano MOF-two-functions” design exhibits significant potential for high-performance infected wound dressings.
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