医学
神经炎症
炎症
冲程(发动机)
脑脊液
病理
淋巴
小胶质细胞
麻醉
血脑屏障
淋巴系统
脑出血
治疗性超声
药理学
全身炎症
机械敏感通道
脑膜炎
脑损伤
神经学
超声波
蛛网膜下腔出血
中枢神经系统
全身给药
磁共振成像
水肿
脑膜
作者
Matine M Azadian,Sepideh Kiani Shabestari,Arjun Rajan,Payton J Martinez,Nicholas Macedo,Eric Markarian,Yun Xiang,Brenda J Yu,Paul M. George,Ryann M. Fame,Raag D. Airan
标识
DOI:10.1038/s41587-025-02866-8
摘要
Impaired clearance of neurotoxic debris in the brain exacerbates neurologic disease and presents a promising therapeutic target. Pharmacologic therapies can enhance meningeal lymphatic clearance in preclinical models but may be limited by systemic toxicities or invasive administration. Here we report a low-intensity, focused ultrasound protocol that noninvasively clears pathogenic substances from the cerebrospinal fluid and brain interstitium in mice. Using two models of hemorrhagic stroke, we demonstrate that this protocol clears the cerebrospinal fluid and interstitium of blood cells, which accumulate in the deep cervical lymph nodes via meningeal lymphatics. The protocol directly modulates molecular processes, including mechanosensitive channels, to shift microglial phenotypes and astrocytic aquaporin localization to reduce neuroinflammation and neurocytotoxicity. In the intracerebral hemorrhage model, it improves behavioral outcomes and increases survival with greater efficacy than a pharmacologic benchmark. The protocol satisfies Food and Drug Administration safety guidelines, supporting clinical translatability. If demonstrated effective clinically, it may provide therapeutic benefit not only in hemorrhagic stroke but also in other neurologic disorders that involve impaired debris clearance.
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