纳米技术
材料科学
过渡金属
生物
生物化学
催化作用
作者
Yilin Song,Qing You,Xiaoyuan Chen
标识
DOI:10.1002/adma.202212102
摘要
Abstract Inflammatory disease (ID) is a general term that covers all diseases in which chronic inflammation performs as the major manifestation of pathogenesis. Traditional therapies based on the anti‐inflammatory and immunosuppressive drugs are palliative with the short‐term remission. The emergence of nanodrugs has been reported to solve the potential causes and prevent recurrences, thus holding great potential for the treatment of IDs. Among various nanomaterial systems, transition metal‐based smart nanosystems (TMSNs) with unique electronic structures possess therapeutic advantages owing to their large surface area to volume ratio, high photothermal conversion efficiency, X‐ray absorption capacity, and multiple catalytic enzyme activities. In this review, the rationale, design principle, and therapeutic mechanisms of TMSNs for treatments of various IDs are summarized. Specifically, TMSNs can not only be designed to scavenge danger signals, such as reactive oxygen and nitrogen species and cell‐free DNA, but also can be engineered to block the mechanism of initiating inflammatory responses. In addition, TMSNs can be further applied as nanocarriers to deliver anti‐inflammatory drugs. Finally, the opportunities and challenges of TMSNs are discussed, and the future directions of TMSN‐based ID treatment for clinical applications are emphasized.
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