用于第二近红外窗口超分辨率光声脑成像的可扩展硫化铜制剂

Scalable Copper Sulfide Formulations for Super-Resolution Optoacoustic Brain Imaging in the Second Near-Infrared Window.

作者信息

Tang Lin, Nozdriukhin Daniil, Kalva Sandeep Kumar, Zhou Quanyu, Özsoy Çağla, Lyu Shuxin, Reiss Michael, Vidal Anxo, Torres Ana, Deán-Ben Xosé Luís, Razansky Daniel

机构信息

Institute of Pharmacology and Toxicology and Institute for Biomedical Engineering, Faculty of Medicine, University of Zurich, Zurich, 8057, Switzerland.

Institute for Biomedical Engineering, Department of Information Technology and Electrical Engineering, ETH Zurich, Zurich, 8093, Switzerland.

出版信息

Small Methods. 2025 Jan;9(1):e2400927. doi: 10.1002/smtd.202400927. Epub 2024 Oct 24.

DOI:10.1002/smtd.202400927

PMID:39449221

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11740951/

Abstract

Optoacoustic imaging offers label-free multi-parametric characterization of cerebrovascular morphology and hemodynamics at depths and spatiotemporal resolution unattainable with optical microscopy. Effective imaging depth can greatly be enhanced by employing photons in the second near-infrared (NIR-II) window. However, diminished absorption by hemoglobin along with a lack of suitable contrast agents hinder an efficient application of the technique in this spectral range. Herein, copper sulfide (CuS) micro- and nano-formulations for multi-scale optoacoustic imaging in the NIR-II window are introduced. Dynamic contrast enhancement induced by intravenously administered CuS nanoparticles facilitated visualization of blood perfusion in murine cerebrovascular networks. The individual calcium carbonate microparticles carrying CuS are further shown to generate sufficient responses to enable super-resolution microvascular imaging and blood flow velocity mapping with localization optoacoustic tomography.

摘要

光声成像能够对脑血管形态和血流动力学进行无标记的多参数表征，其深度以及时空分辨率是光学显微镜无法企及的。通过在第二近红外（NIR-II）窗口使用光子，可以大大提高有效成像深度。然而，血红蛋白吸收的减少以及缺乏合适的造影剂阻碍了该技术在这个光谱范围内的有效应用。在此，介绍了用于NIR-II窗口多尺度光声成像的硫化铜（CuS）微米和纳米制剂。静脉注射CuS纳米颗粒引起的动态对比增强有助于可视化小鼠脑血管网络中的血流灌注。进一步表明，携带CuS的单个碳酸钙微粒能够产生足够的响应，从而通过定位光声层析成像实现超分辨率微血管成像和血流速度映射。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/681f/11740951/fe6dbd14305d/SMTD-9-2400927-g005.jpg

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用于第二近红外窗口超分辨率光声脑成像的可扩展硫化铜制剂

Scalable Copper Sulfide Formulations for Super-Resolution Optoacoustic Brain Imaging in the Second Near-Infrared Window.

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