量子点和Gd3+螯合物:磁共振和光学成像双峰纳米探针的进展和挑战

IF 7.1 2区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Topics in Current Chemistry Pub Date : 2021-02-07 DOI:10.1007/s41061-021-00325-x

Gabriela M. Albuquerque, Izabel Souza-Sobrinha, Samantha D. Coiado, Beate S. Santos, Adriana Fontes, Giovannia A. L. Pereira, Goreti Pereira

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引用次数: 6

摘要

多模态纳米探针的发展日新月异。近年来。在这些新型纳米结构中，有基于量子点(QDs)和低分子量Gd3+螯合物的双峰体系，用于磁共振成像(MRI)和光学分析。MRI是一种世界范围内使用的技术，它提供解剖分辨率，并允许在组织和器官水平上区分生理差异。另一方面，光学技术非常灵敏，可以在细胞或分子水平上跟踪事件。因此，这两种技术的结合有可能实现对生物过程的更全面的理解。本文综述了基于Gd3+螯合物和量子点的多模态光学/顺磁纳米探针的最新研究进展，重点介绍了它们的制备策略和总体性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Quantum Dots and Gd3+ Chelates: Advances and Challenges Towards Bimodal Nanoprobes for Magnetic Resonance and Optical Imaging

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Quantum Dots and Gd3+ Chelates: Advances and Challenges Towards Bimodal Nanoprobes for Magnetic Resonance and Optical Imaging

The development of multimodal nanoprobes has been growing?in recent years. Among these novel nanostructures are bimodal systems based on quantum dots (QDs) and low molecular weight Gd³⁺ chelates, prepared for magnetic resonance imaging (MRI) and optical analyses. MRI is a technique used worldwide that provides anatomic resolution and allows distinguishing of physiological differences at tissue and organ level. On the other hand, optical techniques are very sensitive and allow events to be followed at the cellular or molecular level. Thus, the association of these two techniques has the potential to achieve a more complete comprehension of biological processes. In this review, we present state-of-the-art research concerning the development of potential multimodal optical/paramagnetic nanoprobes based on Gd³⁺ chelates and QDs, highlighting their preparation strategies and overall properties.

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来源期刊

Topics in Current Chemistry Chemistry-General Chemistry

CiteScore

13.70

自引率

1.20%

发文量

期刊介绍： Topics in Current Chemistry is a journal that presents critical reviews of present and future trends in modern chemical research. It covers all areas of chemical science, including interactions with related disciplines like biology, medicine, physics, and materials science. The articles in this journal are organized into thematic collections, offering a comprehensive perspective on emerging research to non-specialist readers in academia or industry. Each review article focuses on one aspect of the topic and provides a critical survey, placing it in the context of the collection. Selected examples highlight significant developments from the past 5 to 10 years. Instead of providing an exhaustive summary or extensive data, the articles concentrate on methodological thinking. This approach allows non-specialist readers to understand the information fully and presents the potential prospects for future developments.