NIR‐II cyanine@albumin fluorophore for deep tissue imaging and imaging‐guided surgery

SmartMat Pub Date : 2023-10-03 DOI:10.1002/smm2.1245
Yuewei Zhang, Yunlong Jia, Shoujun Zhu
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引用次数: 1

Abstract

Abstract The near‐infrared (NIR)‐II bioimaging technique is highly important for both diagnosing and treating life‐threatening diseases due to its exceptional imaging capabilities. However, the lack of suitable NIR‐II fluorescent probes has hindered their widespread clinical application. To address this issue, the binding of albumin to cyanine dyes has emerged as a practical and efficient method for developing high‐performance NIR‐II probes. Cyanine dyes can bind with exogenous and endogenous albumin through either covalent or noncovalent interactions, serving various purposes. The resulting cyanine@albumin (or albumin@cyanine) fluorophores offer significant advantages, including strong brightness, excellent photostability, good biosafety, and a long‐term, high‐resolution imaging window. Cyanine dye in situ binding with endogenous albumin can also enhance the targeting imaging capability. This review provides a summary of the interaction mechanism, performance enhancement, tumor‐targeting feature, and in vivo imaging applications of the cyanine@albumin fluorophores. These advancements not only highlight the unique characteristics of cyanine@albumin fluorophores in preclinical research but also emphasize their potential for clinical diagnosis.
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NIR‐II cyanine@albumin用于深部组织成像和成像引导手术的荧光团
近红外(NIR) - II生物成像技术由于其卓越的成像能力,在诊断和治疗危及生命的疾病方面非常重要。然而,缺乏合适的NIR - II荧光探针阻碍了其广泛的临床应用。为了解决这个问题,白蛋白与花青素染料的结合已经成为开发高性能近红外探针的一种实用而有效的方法。花青素染料可以通过共价或非共价相互作用与外源性和内源性白蛋白结合,具有多种用途。由此产生的cyanine@albumin(或albumin@cyanine)荧光团具有显著的优势,包括强亮度、优异的光稳定性、良好的生物安全性和长期的高分辨率成像窗口。花青素染料与内源性白蛋白原位结合也能增强靶向成像能力。本文综述了cyanine@albumin荧光团的相互作用机制、性能增强、肿瘤靶向特性和体内成像应用。这些进展不仅突出了cyanine@albumin荧光团在临床前研究中的独特特征,而且强调了它们在临床诊断中的潜力。
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