4.6 Article

Precise in Vivo Inflammation Imaging in the NIR-II Window Using 1065 nm Photoacoustic Probe for in Situ Visual Monitoring of Pathological Processes Related to Hepatitis

期刊

ACS SENSORS
卷 7, 期 2, 页码 641-648

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acssensors.1c02632

关键词

second near-infrared window; photoacoustic imaging; molecular probe; hydroxyl radical; hepatitis

资金

  1. National Natural Science Foundations of China [21775030, 21874030]
  2. BAGUI Scholar Program

向作者/读者索取更多资源

The weak interaction between light and biological tissues in the second near-infrared window can enhance the resolution and sensing ability of in vivo photoacoustic imaging. To address the challenges of developing a NIR-II photoacoustic probe, an organic dye was used to develop Hydro-1048 as the first NIR-II photoacoustic probe for imaging hydroxy radicals. The probe showed a strong photoacoustic signal after irradiation with a 1065 nm laser, allowing for noninvasive high-resolution imaging of hydroxy radicals in deep tissue.
The interaction between light and biological tissues in the second near-infrared (NIR-II) window is weak, which can effectively reduce the scattering and absorption of incoming light by biological tissues and enhance the resolution and sensing ability of in vivo photoacoustic (PA) imaging. In particular, tissues that carry blood and water produce the lowest PA background in the wavelength range of 1050 to 1150 nm. However, the development of the NIR-II PA probe for the above window faces great challenges. To tackle this challenge, the reduction-reoxidation of an organic dye was used to develop a PA imaging probe (Hydro-1048) as the first NIR-II PA probe of a hydroxy radical (center dot OH) for molecular imaging in deep tissue. The center dot OH oxidized the C-N single bond in Hydro-1048 to double bonds, which formed Et1065. This conversion extended the conjugate system of the molecule and shifted the absorption peak from 520 to 1065 nm, which resulted in a strong PA signal after irradiation with a 1065 nm laser. At a detection limit of 0.6 nM, a good linear relationship within the range of 5-1000 nM was obtained for the PA signal intensity versus the concentration of center dot OH. The developed NIR-II PA probe can be used for the noninvasive high-resolution imaging of center dot OH in deep tissue, and the PA imaging of center dot OH can also be used to visually monitor in situ pathological processes related to hepatitis.

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