Exercise muscle metabolism measured by magnetic resonance spectroscopy.

Canadian journal of applied sport sciences. Journal canadien des sciences appliquees au sport Pub Date : 1986-06-01

W R Inch, B Serebrin, A W Taylor, R T Thompson

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Abstract

Nuclear magnetic resonance imaging (MRI) is a technique which gives body images in much the same way as X-ray tomography. Most images are produced from signals of mobile hydrogen atoms in the tissues. Since bone contains few such atoms the images do not show bone material but allow marrow to be observed. Recently the technique has been extended to include spectroscopy of atoms of 31P, 13C and several others important in cell and tissue metabolism. The technique which uses a radiofrequency surface coil placed over the tissue of interest, is called topical magnetic resonance spectroscopy (MRS). Magnetic resonance spectroscopy which measures phosphorus nuclei can be used to study phosphorus in muscle. The same instrument can be used to study hydrogen density distribution. It can monitor muscle metabolism during exercise and muscle energetics can thus be evaluated. MRS gives a more accurate picture of the in vivo proportions of high energy phosphates than conventional biochemical analysis, which requires muscle biopsy, it can be used to monitor living tissue in a non-destructive way.

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用磁共振波谱法测量运动肌肉代谢。

核磁共振成像(MRI)是一种提供人体图像的技术，其方式与x射线断层扫描非常相似。大多数图像是由组织中活动氢原子的信号产生的。由于骨骼含有很少的这种原子，因此图像不能显示骨骼材料，但可以观察到骨髓。最近，该技术已扩展到包括31P, 13C和其他几个在细胞和组织代谢中重要的原子的光谱。该技术使用射频表面线圈放置在感兴趣的组织上，称为局部磁共振波谱(MRS)。测量磷核的磁共振波谱可以用来研究肌肉中的磷。同样的仪器也可以用来研究氢的密度分布。它可以监测运动过程中的肌肉代谢，从而评估肌肉能量。与需要肌肉活检的常规生化分析相比，MRS能更准确地描绘出体内高能磷酸盐的比例，它可以用于以非破坏性的方式监测活组织。

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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Canadian journal of applied sport sciences. Journal canadien des sciences appliquees au sport

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