Recent advances in self-immobilizing fluorescent probes for in vivo imaging

Yong Zhang, Xuemei Lv, Yafu Wang, Xueqian Chen, Jinchao Zhang, Dongdong Su
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Abstract

In situ precise detection of bioactive molecules with high sensitivity and spatiotemporal resolution is essential for studying physiological events and disease diagnosis. The utilization of versatile fluorescent probes in fluorescence imaging offers a powerful tool for in vivo imaging of biomarkers closely associated with pathological conditions. However, the dynamic behavior leading to rapid clearance of small molecule probes from regions of interest severely compromises their potential for precise imaging. Notably, self-immobilizing fluorescent probes that selectively recognize diseased tissues while improving in situ retention and enrichment enable accurate high-fidelity fluorescence imaging. In this review, we aim to summarize the strategies employed for recent advances in the performance and precision of in vivo fluorescence imaging using self-immobilizing techniques. Lastly, we discuss the prospects and potential challenges associated with self-immobilizing fluorescent probes to promote further development and application of more delicate fluorescent probes.

Abstract Image

用于体内成像的自固定荧光探针的最新进展
以高灵敏度和时空分辨率对生物活性分子进行原位精确检测,对于研究生理事件和疾病诊断至关重要。在荧光成像中利用多功能荧光探针为与病理状况密切相关的生物标志物的体内成像提供了一个强大的工具。然而,小分子探针的动态行为会导致其从感兴趣区域快速清除,这严重影响了其精确成像的潜力。值得注意的是,自固定荧光探针能选择性地识别病变组织,同时提高原位保留和富集能力,从而实现精确的高保真荧光成像。在这篇综述中,我们旨在总结最近利用自固定技术提高体内荧光成像性能和精确度所采用的策略。最后,我们将讨论与自固定荧光探针相关的前景和潜在挑战,以促进更精细荧光探针的进一步开发和应用。
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