How to 19F MRI: applications, technique, and getting started.

BJR open Pub Date : 2023-09-29 eCollection Date: 2023-01-01 DOI:10.1259/bjro.20230019
Olga Maxouri, Zuhir Bodalal, Mariah Daal, Sajjad Rostami, Ivonne Rodriguez, Leila Akkari, Mangala Srinivas, René Bernards, Regina Beets-Tan
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Abstract

Magnetic resonance imaging (MRI) plays a significant role in the routine imaging workflow, providing both anatomical and functional information. 19F MRI is an evolving imaging modality where instead of 1H, 19F nuclei are excited. As the signal from endogenous 19F in the body is negligible, exogenous 19F signals obtained by 19F radiofrequency coils are exceptionally specific. Highly fluorinated agents targeting particular biological processes (i.e., the presence of immune cells) have been visualised using 19F MRI, highlighting its potential for non-invasive and longitudinal molecular imaging. This article aims to provide both a broad overview of the various applications of 19F MRI, with cancer imaging as a focus, as well as a practical guide to 19F imaging. We will discuss the essential elements of a 19F system and address common pitfalls during acquisition. Last but not least, we will highlight future perspectives that will enhance the role of this modality. While not an exhaustive exploration of all 19F literature, we endeavour to encapsulate the broad themes of the field and introduce the world of 19F molecular imaging to newcomers. 19F MRI bridges several domains, imaging, physics, chemistry, and biology, necessitating multidisciplinary teams to be able to harness this technology effectively. As further technical developments allow for greater sensitivity, we envision that 19F MRI can help unlock insight into biological processes non-invasively and longitudinally.

如何19F MRI:应用,技术和入门。
磁共振成像(MRI)在常规成像工作流程中发挥着重要作用,提供解剖和功能信息。19F核磁共振成像是一种不断发展的成像方式,19F核被激发而不是1H。由于来自体内内源性19F的信号可以忽略不计,因此19F射频线圈获得的外源性19F信号具有特殊的特异性。针对特定生物过程(即免疫细胞的存在)的高氟化剂已使用19F核磁共振成像可视化,突出了其非侵入性和纵向分子成像的潜力。本文旨在提供以癌症成像为重点的19F MRI的各种应用的广泛概述,以及19F成像的实用指南。我们将讨论19F系统的基本要素,并指出在采购过程中常见的缺陷。最后但并非最不重要的是,我们将强调未来的观点,将加强这种模式的作用。虽然不是对所有19F文献的详尽探索,但我们努力概括该领域的广泛主题,并向新人介绍19F分子成像的世界。19F MRI连接了成像、物理、化学和生物学等多个领域,需要多学科团队能够有效地利用这项技术。随着技术的进一步发展,我们设想19F MRI可以帮助我们非侵入性地、纵向地了解生物过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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