蛛网膜下腔出血
穿孔
医学
放射科
内科学
材料科学
冲孔
冶金
作者
Maliang Tao,Jian Mao,Yun Bao,Fan Liu,Yiying Mai,Shujuan Guan,Shihua Luo,Yue Huang,Zixiong Li,Yuan Zhong,Binbin Wei,Jun Pan,Qian Wang,Lei Zheng,Bo Situ
标识
DOI:10.1002/advs.202205435
摘要
Subarachnoid hemorrhage (SAH) is a severe subtype of stroke caused by the rupturing of blood vessels in the brain. The ability to accurately assess the degree of bleeding in an SAH model is crucial for understanding the brain-damage mechanisms and developing therapeutic strategies. However, current methods are unable to monitor microbleeding owing to their limited sensitivities. Herein, a new bleeding assessment system using a bioprobe TTVP with aggregation-induced emission (AIE) characteristics is demonstrated. TTVP is a water-soluble, small-molecule probe that specifically interacts with blood. Taking advantage of its AIE characteristics, cell membranes affinity, and albumin-targeting ability, TTVP fluoresces in bleeding areas and detects the presence of blood with a high signal-to-noise (S/N) ratio. The degree of SAH bleeding in an endovascular perforation model is clearly evaluated based on the intensity of the fluorescence observed in the brain, which enables the ultrasensitive detection of mirco-bleeding in the SAH model in a manner that outperforms the current imaging strategies. This method serves as a promising tool for the sensitive analysis of the degree of bleeding in SAHs and other hemorrhagic diseases.
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