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啮齿动物大脑中的磁共振波谱:专家共识建议。

Magnetic resonance spectroscopy in the rodent brain: Experts' consensus recommendations.

作者信息

Lanz Bernard, Abaei Alireza, Braissant Olivier, Choi In-Young, Cudalbu Cristina, Henry Pierre-Gilles, Gruetter Rolf, Kara Firat, Kantarci Kejal, Lee Phil, Lutz Norbert W, Marjańska Małgorzata, Mlynárik Vladimír, Rasche Volker, Xin Lijing, Valette Julien

机构信息

Laboratory for Functional and Metabolic Imaging (LIFMET), Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland.

Sir Peter Mansfield Imaging Centre, School of Medicine, University of Nottingham, Nottingham, United Kingdom.

出版信息

NMR Biomed. 2020 Aug 26:e4325. doi: 10.1002/nbm.4325.

DOI:10.1002/nbm.4325
PMID:33565219
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9429976/
Abstract

In vivo MRS is a non-invasive measurement technique used not only in humans, but also in animal models using high-field magnets. MRS enables the measurement of metabolite concentrations as well as metabolic rates and their modifications in healthy animals and disease models. Such data open the way to a deeper understanding of the underlying biochemistry, related disturbances and mechanisms taking place during or prior to symptoms and tissue changes. In this work, we focus on the main preclinical H, P and C MRS approaches to study brain metabolism in rodent models, with the aim of providing general experts' consensus recommendations (animal models, anesthesia, data acquisition protocols). An overview of the main practical differences in preclinical compared with clinical MRS studies is presented, as well as the additional biochemical information that can be obtained in animal models in terms of metabolite concentrations and metabolic flux measurements. The properties of high-field preclinical MRS and the technical limitations are also described.

摘要

体内磁共振波谱(MRS)是一种非侵入性测量技术,不仅用于人体,还用于使用高场磁体的动物模型。MRS能够测量健康动物和疾病模型中的代谢物浓度、代谢率及其变化。这些数据为更深入了解症状和组织变化期间或之前发生的潜在生物化学、相关紊乱及机制开辟了道路。在这项工作中,我们专注于研究啮齿动物模型脑代谢的主要临床前氢、磷和碳MRS方法,目的是提供专家共识性建议(动物模型、麻醉、数据采集方案)。本文介绍了临床前与临床MRS研究相比的主要实际差异概述,以及在动物模型中就代谢物浓度和代谢通量测量可获得的额外生物化学信息。还描述了高场临床前MRS的特性和技术局限性。

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