药理学
败血症
肾
药品
和厚朴酚
氧化应激
急性肾损伤
抗生素
炎症
细胞凋亡
生物利用度
化学
医学
免疫学
生物化学
内科学
作者
Chang Liu,Zhengjiang Cao,Li Li,Li Li,Qingyin Li,Chunle Zhang,Yunbing Wang,Linhua Li,Linhua Li,Ping Fu
标识
DOI:10.1021/acsbiomaterials.4c01852
摘要
and HK in the nanomicelles exert a synergistic physiological effect by scavenging free radicals to alleviate oxidative damage, inhibiting macrophage activation and the release of inflammatory factors to regulate inflammation, and displaying broad-spectrum antimicrobial activity to control infection. These actions collectively protect renal tissue and restore its functionality. Here, we constructed metal-polyphenol nanomicelles (Pt/HK-NMs) via ingenious and efficient self-assembly, providing a new strategy to compensate for deficiencies in the hemodialysis and antibiotic treatment of SAKI.
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