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基于二维硅烯的介孔纳米医学用于体内近红外触发镇痛。

Engineering 2D Silicene-Based Mesoporous Nanomedicine for In Vivo Near-Infrared-Triggered Analgesia.

机构信息

Department of Anesthesiology, Renji Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, 200127, P. R. China.

Materdicine Lab, School of Life Sciences, Shanghai University, Shanghai, 200444, P. R. China.

出版信息

Adv Sci (Weinh). 2022 Sep;9(25):e2202735. doi: 10.1002/advs.202202735. Epub 2022 Jun 24.

DOI:10.1002/advs.202202735
PMID:35750652
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9443434/
Abstract

The utilization of local anesthetics for postoperative analgesia represents an effective approach, but generally suffers from short half-lives and brachychronic local neurotoxicity. A desirable anesthetic with controllable and sustainable drug-releasing performance for adequate analgesia effect is highly required. In this work, the core/shell-structured two-dimenional (2D) silicene nanosheets coated with mesoporous silica layer (abbreviated as Silicene@MSNs) have been rationally constructed as localized drug-delivery system in sciatic nerve block to achieve on-demand release of loaded ropivacaine (RP) in mesoporous silica layer for local analgesia. Based on the specific photothermal performance of 2D silicene core, this local anesthesia system can be triggered by near-infrared laser to release the loaded RP, resulting in on-demand and long-lasting regional anesthesia. The analgesia effect is assessed by pain behavior tests, which demonstrates that the RP-loaded Silicene@MSNs core/shell nanosystem behaves almost five times longer analgesia effect than free RP. Furthermore, the activation of pain-related neurons in nerve conduction pathways is tested to explore the underlying analgesia mechanism, revealing that the designed nanosystem can improve the pain threshold, reduce the activation of neurons in dorsal root ganglion and excitability in spinal substantia gelatinosa neurons. This designed anesthetic nanomedicine provides a facile but effective methodology for long-lasting regional anesthesia.

摘要

局部麻醉剂在术后镇痛中的应用是一种有效的方法,但通常存在半衰期短和局部神经毒性短的问题。因此,人们迫切需要一种具有可控、可持续药物释放性能的理想麻醉剂,以达到足够的镇痛效果。在这项工作中,我们合理构建了具有核壳结构的二维(2D)硅烯纳米片,其表面覆盖有介孔硅层(缩写为 Silicene@MSNs),作为局部麻醉药在坐骨神经阻滞中的药物传递系统,以实现负载罗哌卡因(RP)在介孔硅层中的按需释放,从而实现局部镇痛。基于 2D 硅烯核的特殊光热性能,这种局部麻醉系统可以通过近红外激光触发,从而释放负载的 RP,实现按需和持久的区域麻醉。通过疼痛行为测试评估镇痛效果,结果表明负载 RP 的 Silicene@MSNs 核壳纳米系统的镇痛效果几乎是游离 RP 的五倍。此外,还测试了神经传导通路中与疼痛相关的神经元的激活情况,以探讨其潜在的镇痛机制,结果表明,所设计的纳米系统可以提高疼痛阈值,减少背根神经节中神经元的激活和脊髓胶状质神经元的兴奋性。这种设计的麻醉纳米医学为持久的区域麻醉提供了一种简单而有效的方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/891f/9443434/e21c9d184ca0/ADVS-9-2202735-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/891f/9443434/ad660b1fa3e1/ADVS-9-2202735-g011.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/891f/9443434/5926bc1fb50c/ADVS-9-2202735-g007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/891f/9443434/e21c9d184ca0/ADVS-9-2202735-g001.jpg

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