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生物材料以及基于干细胞/外泌体的策略在创伤性脑损伤治疗中的研究进展。

Advances in research on biomaterials and stem cell/exosome-based strategies in the treatment of traumatic brain injury.

作者信息

Chi Wenya, He Yingying, Chen Shuisheng, Guo Lingyi, Yuan Yan, Li Rongjie, Liu Ruiyao, Zhou Dairan, Du Jianzhong, Xu Tao, Yu Yuan

机构信息

Department of Pharmaceutical Science, Faculty of Pharmacy, Naval Medical University, Shanghai 200433, China.

Department of Neurosurgery, Changzheng Hospital, Naval Medical University, Shanghai 200003, China.

出版信息

Acta Pharm Sin B. 2025 Jul;15(7):3511-3544. doi: 10.1016/j.apsb.2025.05.010. Epub 2025 May 21.

DOI:10.1016/j.apsb.2025.05.010
PMID:40698148
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12278432/
Abstract

Traumatic brain injury (TBI) is intricately linked to the most severe clinical manifestations of brain damage. It encompasses dynamic pathological mechanisms, including hemodynamic disorders, excitotoxic injury, oxidative stress, mitochondrial dysfunction, inflammation, and neuronal death. This review provides a comprehensive analysis and summary of biomaterial-based tissue engineering scaffolds and nano-drug delivery systems. As an example of functionalized biomaterials, nano-drug delivery systems alter the pharmacokinetic properties of drugs. They provide multiple targeting strategies relying on factors such as morphology and scale, magnetic fields, pH, photosensitivity, and enzymes to facilitate the transport of therapeutics across the blood-brain barrier and to promote selective accumulation at the injury site. Furthermore, therapeutic agents can be incorporated into bioscaffolds to interact with the biochemical and biophysical environment of the brain. Bioscaffolds can mimic the extracellular matrix environment, regulate cellular interactions, and increase the effectiveness of local treatments following surgical interventions. Additionally, stem cell-based and exosome-dominated extracellular vesicle carriers exhibit high bioreactivity and low immunogenicity and can be used to design therapeutic agents with high bioactivity. This review also examines the utilization of endogenous bioactive materials in the treatment of TBI.

摘要

创伤性脑损伤(TBI)与脑损伤最严重的临床表现密切相关。它包含动态病理机制,包括血流动力学紊乱、兴奋性毒性损伤、氧化应激、线粒体功能障碍、炎症和神经元死亡。本综述对基于生物材料的组织工程支架和纳米药物递送系统进行了全面分析和总结。作为功能化生物材料的一个例子,纳米药物递送系统改变了药物的药代动力学性质。它们基于形态和尺寸、磁场、pH值、光敏性和酶等因素提供多种靶向策略,以促进治疗药物穿过血脑屏障并促进在损伤部位的选择性积累。此外,治疗剂可掺入生物支架中,与脑的生化和生物物理环境相互作用。生物支架可以模拟细胞外基质环境,调节细胞相互作用,并提高手术干预后局部治疗的效果。此外,基于干细胞和以外泌体为主的细胞外囊泡载体具有高生物反应性和低免疫原性,可用于设计具有高生物活性的治疗剂。本综述还探讨了内源性生物活性材料在TBI治疗中的应用。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5068/12278432/27a77124a249/ga1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5068/12278432/85616fbf0a70/gr1.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5068/12278432/786381d68775/gr5.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5068/12278432/90ba8fa0f8cb/gr6.jpg
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Oxidized Carbon Nanoparticles Enhance Cellular Energetics With Application to Injured Brain.氧化碳纳米颗粒增强细胞能量代谢及其在脑损伤中的应用
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