Nuclear magnetic resonance imaging.

Progress in nuclear medicine Pub Date : 1981-01-01
L Crooks, R Herfkens, L Kaufman, J Hoenninger, M Arakawa, R McRee, J Watts
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Abstract

NMR imaging is based on the ability to induce and monitor resonance of the magnetic moment of nuclei with an odd number of protons and/or neutrons in the presence of magnetic fields. By the use of magnetic fields whose strength varies with position, it is possible to define both the location and concentration of resonant nuclei, and, thereby, to create images that reflect their distribution in tissue. Hydrogen because it is the most sensitive of the stable nuclei to NMR and because it is also the most abundant nucleus in the body, is ideally suited for NMR imaging.

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核磁共振成像。
核磁共振成像是基于在磁场存在的情况下,诱导和监测原子核与奇数质子和/或中子的磁矩共振的能力。利用强度随位置变化的磁场,可以确定共振核的位置和浓度,从而产生反映其在组织中的分布的图像。氢是对核磁共振最敏感的稳定原子核,也是人体中含量最多的原子核,是核磁共振成像的理想选择。
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Progress in nuclear medicine
Progress in nuclear medicine
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