Magnetic Nanoparticles as MRI Contrast Agents

IF 7.1 2区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Topics in Current Chemistry Pub Date : 2020-05-07 DOI:10.1007/s41061-020-00302-w

Ashish Avasthi, Carlos Caro, Esther Pozo-Torres, Manuel Pernia Leal, María Luisa García-Martín

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引用次数: 88

Abstract

Iron oxide nanoparticles (IONPs) have emerged as a promising alternative to conventional contrast agents (CAs) for magnetic resonance imaging (MRI). They have been extensively investigated as CAs due to their high biocompatibility and excellent magnetic properties. Furthermore, the ease of functionalization of their surfaces with different types of ligands (antibodies, peptides, sugars, etc.) opens up the possibility of carrying out molecular?MRI. Thus, IONPs functionalized with epithelial growth factor receptor antibodies, short peptides, like RGD, or aptamers, among others, have been proposed for the diagnosis of various types of cancer, including breast, stomach, colon, kidney, liver or brain cancer. In addition to cancer diagnosis, different types of IONPs have been developed for other applications, such as the detection of brain inflammation or the early diagnosis of thrombosis. This review addresses key aspects in the development of IONPs for MRI applications, namely, synthesis of the inorganic core, functionalization processes to make IONPs biocompatible and also to target them to specific tissues or cells, and finally in vivo studies in animal models, with special emphasis on tumor models.

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磁性纳米颗粒作为MRI造影剂

氧化铁纳米颗粒(IONPs)已成为磁共振成像(MRI)中传统造影剂(CAs)的有前途的替代品。由于具有较高的生物相容性和优异的磁性，它们作为CAs被广泛研究。此外，它们的表面易于与不同类型的配体(抗体，肽，糖等)功能化，从而开辟了进行分子MRI的可能性。因此，与上皮生长因子受体抗体、短肽(如RGD)或适体等一起功能化的IONPs已被提出用于诊断各种类型的癌症，包括乳腺癌、胃癌、结肠癌、肾癌、肝癌或脑癌。除了癌症诊断，不同类型的离子迁移蛋白已经被开发用于其他应用，如检测脑部炎症或血栓形成的早期诊断。本文综述了IONPs用于MRI应用的发展的关键方面，即无机核心的合成，使IONPs具有生物相容性的功能化过程，并将其靶向于特定的组织或细胞，最后是动物模型的体内研究，特别强调肿瘤模型。

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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.