用于深层组织红外成像的新型量子点材料设计。

Design of new quantum dot materials for deep tissue infrared imaging.

机构信息

LPEM, ESPCI/CNRS/UPMC UMR 8213, 10, Rue Vauquelin, 75005 Paris, France.

出版信息

Adv Drug Deliv Rev. 2013 May;65(5):719-31. doi: 10.1016/j.addr.2012.08.016. Epub 2012 Sep 6.

DOI:10.1016/j.addr.2012.08.016

Abstract

Near infrared fluorescence offers several advantages for tissue and in vivo imaging thanks to deeper photon penetration. In this article, we review a promising class of near infrared emitting probes based on semiconductor quantum dots (QDs), which have the potential to considerably improve in vivo fluorescence imaging thanks to their high brightness and stability. We discuss in particular the different criteria to optimize the design of near infrared QDs. We present the recent developments in the synthesis of novel QD materials and their different in vivo imaging applications, including lymph node localization, vasculature imaging, tumor localization, as well as cell tracking and QD-based multimodal probes.

摘要

近红外荧光由于其更深的光子穿透能力，为组织和体内成像提供了多个优势。在本文中，我们综述了一类基于半导体量子点（QD）的有前途的近红外发射探针，由于其高亮度和稳定性，它们有可能极大地改善体内荧光成像。我们特别讨论了优化近红外 QD 设计的不同标准。我们介绍了新型 QD 材料的合成方面的最新进展及其在体内成像应用中的不同，包括淋巴结定位、血管成像、肿瘤定位以及细胞跟踪和基于 QD 的多模态探针。

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用于深层组织红外成像的新型量子点材料设计。

Design of new quantum dot materials for deep tissue infrared imaging.

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