体内代谢生成水的单次激发T1rho磁共振成像

Single shot T1rho magnetic resonance imaging of metabolically generated water in vivo.

作者信息

Mellon Eric A, Beesam R Shashank, Kasam Mallikarjunarao, Baumgardner James E, Borthakur Arijitt, Witschey Walter R, Reddy Ravinder

机构信息

Department of Radiology, MMRRCC University of Pennsylvania, Philadelphia, Pennsylvania, 19104-6100, USA.

出版信息

Adv Exp Med Biol. 2009;645:279-86. doi: 10.1007/978-0-387-85998-9_42.

DOI:10.1007/978-0-387-85998-9_42

PMID:19227483

Abstract

The use of Oxygen-17 MRI provides great promise for the clinically-useful quantification of metabolism. To bring techniques based on 17O closer to clinical application, we demonstrate imaging of metabolically generated H2 17O in pigs after 17O2 delivery with increased temporal resolution T1rho-weighted imaging and precision delivery of 17O2 gas. The kinetics of the appearance of H2 17O in pig brains are displayed with one to two minutes of 17O2 delivery, the shortest delivery times reported in the literature. It is also shown that H2 17O concentrations can be quantified with single shot T1rho imaging based on a balanced steady state free precession readout, and that with this strategy pausing to reduce T1 saturation increases sensitivity to H2 17O over acquisition in the steady state. Several additional considerations with this sequence, which can be generalized to any pre-encoding cluster, such as energy deposition are considered.

摘要

利用氧-17磁共振成像在临床上对代谢进行有效定量分析方面具有巨大潜力。为了使基于氧-17的技术更接近临床应用，我们展示了在给猪输送氧-17后，通过提高时间分辨率的T1rho加权成像和精确输送氧-17气体，对代谢产生的H2 17O进行成像。在文献报道的最短输送时间（一到两分钟的氧-17输送时间）内，展示了猪脑中H2 17O出现的动力学过程。研究还表明，基于平衡稳态自由进动读出的单次激发T1rho成像可以对H2 17O浓度进行定量分析，并且采用这种策略暂停以减少T1饱和，相比于稳态采集，可提高对H2 17O的敏感度。还考虑了该序列的其他几个注意事项，这些注意事项可推广到任何预编码簇，比如能量沉积。

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体内代谢生成水的单次激发T1rho磁共振成像

Single shot T1rho magnetic resonance imaging of metabolically generated water in vivo.

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