炎症
光动力疗法
医学
伤口愈合
生物相容性
生物安全
糖尿病
材料科学
药理学
抗生素
癌症研究
体外
糖尿病溃疡
免疫学
纳米材料
慢性伤口
抗菌活性
伤口护理
治疗效果
重症监护医学
纤维化
作者
Ke Wang,Jue Zhang,Bing Han,Yan Xu,Jiayue Xu,Fang Yuan,Lei Wang,Jianwei Zhu
摘要
Diabetic wound ulcers, characterized by chronic infection and persistent inflammation, significantly impair patient quality of life and present substantial socioeconomic burdens. Traditional therapeutic strategies frequently encounter challenges, including antibiotic resistance, systemic side effects, and inadequate control over localized inflammation. We herein developed novel carrier-free nanoparticles (CeCur NPs) by self-assembling chlorin e6 (Ce6) and curcumin, achieving simultaneous photodynamic antibacterial activity and sustained anti-inflammatory effects. CeCur NPs exhibited effective and synergetic anti-bacteria and anti-inflammation both in vitro and in vivo. Comprehensive biosafety evaluations further confirmed the excellent biocompatibility of CeCur NPs, underscoring their potential as a promising therapeutic strategy for accelerating diabetic wound healing.
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