Spatially Localized, One- and Two-Dimensional NMR Spectroscopy andin VivoApplication to Human Muscle

Roland Kreis , Chris Boesch
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引用次数: 82

Abstract

The localized1H MR spectrum of human muscle has recently been reported to feature unassigned, orientation-dependent resonance lines. For their characterizationin vivo,various NMR techniques were combined with 3D spatial localization: 2D-J spectroscopy, zero-quantum- and Zeeman-order-filtering, double-quantum-filtering, 2D-constant-time COSY, dipolar-order filtering, and 2D-longitudinal-order separated spectroscopy. The successful implementation of these methods on a whole-body MR system and their application to study human subjects is described.1H MR spectra of human muscle were found to feature residual dipolar couplings and anisotropic susceptibilities which render resonance frequencies, phases, and—with some sequences—signal intensities orientation dependent. Two of the unidentified resonances unequivocally form a dipolar doublet of two equivalent protons, centered at 3.93 ppm. All unknown as well as previously assigned peaks in the range between 2.7 and 3.6 ppm are either subject to dipolar coupling themselves or overlap with spectral contributions of metabolites involved in dipolar coupling. The methyl protons of creatine are likely to be subject to residual dipolar coupling and do therefore form a dipolar triplet and not a singlet as previously assumed. Finally, X3, a further unidentified peak at 3.5 ppm, appears to be part of a multiplet with its center at 3.3 ppm and overlapping the trimethylammonium resonance.

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空间定位,一维和二维核磁共振波谱及其在人体肌肉中的应用
最近有报道称,人类肌肉的局部1h磁共振频谱具有未分配的、方向相关的共振线。为了在体内进行表征,我们将各种核磁共振技术与三维空间定位相结合:2D-J光谱、零量子和泽曼阶滤波、双量子滤波、2d恒定时间COSY、偶极阶滤波和2d纵向阶分离光谱。本文描述了这些方法在全身MR系统上的成功实现及其在人体研究中的应用。人体肌肉的1H磁共振光谱被发现具有残余的偶极耦合和各向异性敏感性,这使得共振频率、相位和某些序列的信号强度依赖于方向。其中两个未确定的共振明确地形成了两个等效质子的偶极双偶态,中心为3.93 ppm。所有在2.7至3.6 ppm范围内的未知峰以及先前指定的峰要么本身受偶极耦合影响,要么与参与偶极耦合的代谢物的光谱贡献重叠。肌酸的甲基质子可能受到残余的偶极偶联,因此形成偶极三重态,而不是先前假设的单线态。最后,X3,另一个未确定的3.5 ppm峰,似乎是其中心为3.3 ppm的多重共振的一部分,并与三甲基铵共振重叠。
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