近红外荧光在第二和第三生物窗口的体内生物成像研究新进展

Recent Progress of Near-Infrared Fluorescence in vivo Bioimaging in the Second and Third Biological Window.

作者信息

Kamimura Masao

机构信息

Department of Materials Science and Technology, Faculty of Industrial Science and Technology, Tokyo University of Science, 6-3-1 Niijuku, Katsushika, Tokyo, 125-8585, Japan.

出版信息

Anal Sci. 2021 May 10;37(5):691-697. doi: 10.2116/analsci.20SCR11. Epub 2021 Jan 15.

DOI:10.2116/analsci.20SCR11

PMID:33455967

Abstract

Near-infrared (NIR) fluorescence bioimaging using above to 1000 nm wavelength region is a promising analytical method on visualizing deep tissues. As compared to the short-wavelength ultraviolet (UV: < 400 nm) or visible (VIS: 400 - 700 nm) region, which results in an extremely low absorption or scattering of biomolecules and water in the body, NIR light passes through the tissues. Various fluorescent probes that emit NIR emission in the second (1100 - 1400 nm) or third (1550 - 1800 nm) biological windows have been developed and used for NIR in vivo imaging. Single-walled carbon nanotubes (SWCNTs), quantum dots (QDs), rare-earth doped ceramic nanoparticles (RED-CNPs), and organic dye-based probes have been proposed by many researchers, and are used to successfully visualize the bloodstream, organs, and disease-affected regions, such as cancer. NIR imaging in the second and third biological windows is an effective analytical method on visualizing deep tissues.

摘要

使用波长在1000纳米及以上区域的近红外（NIR）荧光生物成像技术是一种用于可视化深层组织的很有前景的分析方法。与短波长的紫外线（UV：<400纳米）或可见光（VIS：400 - 700纳米）区域相比，生物分子和体内的水对其吸收或散射极低，而近红外光可以穿透组织。已开发出各种在第二（1100 - 1400纳米）或第三（1550 - 1800纳米）生物窗口发射近红外光的荧光探针，并用于近红外体内成像。许多研究人员提出了单壁碳纳米管（SWCNT）、量子点（QD）、稀土掺杂陶瓷纳米颗粒（RED-CNP）和基于有机染料的探针，并成功用于可视化血流、器官以及疾病影响区域，如癌症。在第二和第三生物窗口进行近红外成像，是可视化深层组织的一种有效分析方法。

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近红外荧光在第二和第三生物窗口的体内生物成像研究新进展

Recent Progress of Near-Infrared Fluorescence in vivo Bioimaging in the Second and Third Biological Window.

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