人体皮质骨 1H NMR 信号的磁共振成像特征。
Characterization of 1H NMR signal in human cortical bone for magnetic resonance imaging.
机构信息
Department of Biomedical Engineering, Vanderbilt University, Nashville, Tennessee, USA.
出版信息
Magn Reson Med. 2010 Sep;64(3):680-7. doi: 10.1002/mrm.22459.
Abstract
Recent advancements in MRI have enabled clinical imaging of human cortical bone, providing a potentially powerful new means for assessing bone health with molecular-scale sensitivities unavailable to conventional X-ray-based diagnostics. In human cortical bone, MRI is sensitive to populations of protons ((1)H) partitioned among water and protein sources, which may be differentiated according to intrinsic NMR properties such as chemical shift and transverse and longitudinal relaxation rates. Herein, these NMR properties were assessed in human cortical bone donors from a broad age range, and four distinct (1)H populations were consistently identified and attributed to five microanatomical sources. These findings show that modern human cortical bone MRI contrast will be dominated by collagen-bound water, which can also be exploited to study human cortical bone collagen via magnetization transfer.
摘要
磁共振成像技术的最新进展使得对人体皮质骨的临床成像成为可能,为评估骨骼健康提供了一种潜在的强大新方法,其分子级灵敏度是传统基于 X 射线的诊断方法所无法达到的。在人体皮质骨中,磁共振成像是对分布在水和蛋白质源中的质子((1)H)群体敏感的,这些质子可以根据内在的核磁共振特性(如化学位移、横向和纵向弛豫率)进行区分。在此,对来自广泛年龄范围的人体皮质骨供体中的这些 NMR 特性进行了评估,并且一致地鉴定和归因于五个微解剖学来源的四个不同的((1)H)群体。这些发现表明,现代人类皮质骨磁共振成像的对比度将主要由与胶原蛋白结合的水主导,这也可以通过磁化转移来研究人类皮质骨胶原蛋白。
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