化学
余辉
神经炎症
体内
发光
创伤性脑损伤
生物物理学
持续发光
外伤
临床前影像学
核磁共振
脑组织
癌症研究
作者
Long Deng,Jinxue Xiang,Xiaobei Zeng,Zhe Li,Zaifeng Chen,Cheng Zhang,Hanqing He,Tong Ye,Qiufang Gong,Guosheng Song,Chao Liang
标识
DOI:10.1021/acs.analchem.6c00591
摘要
The field of traumatic brain injury (TBI) lacks imaging tools capable of monitoring neuroinflammation and oxidative stress. To address this limitation, we developed a ratiometric afterglow nanoparticles (RANPs) by coloading the sensitive afterglow polymer WXS13 with oxidative stress-responsive molecules (ORM) into nanoparticles, establishing an imaging platform capable of precise quantification of reactive oxygen and nitrogen species levels in brain regions affected by TBI. By leveraging afterglow resonance energy transfer (ARET), the nanoprobe exhibited ratiometric signal shifts at 620 and 820 nm upon interaction with inflammatory mediators (specifically ClO– and ONOO–) in the injured brain, allowing quantitative assessment of oxidative stress levels. Furthermore, this ratiometric afterglow signal showed a positive correlation with the activation of microglia and astrocytes as well as with brain tissue loss. In different degrees of TBI models, RANPs could distinguish mild from severe injury, track spatiotemporal progression of neuroinflammation, and monitor therapeutic responses. This work established a promising afterglow imaging strategy for noninvasive evaluation of ClO– and ONOO– level in TBI models, offering potential for monitoring neuroinflammation and oxidative stress.
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