NMR MICROSCOPY - FUNDAMENTALS, LIMITS AND POSSIBLE APPLICATIONS

Alongside the numerous applications of NMR spectroscopy to structural elucidation in analytical chemistry, and to biochemical and morphological studies by NMR tomography, NMR microscopy makes possible a whole new range of applications. These include imaging, the investigation of biological objects such as plants and small animals, and also the observation of microscopic structures and structural changes in polymers and ceramics. NMR spectroscopy can also be conducted combinationally as volume‐selective spectroscopy, whereby it is possible to spatially resolve the NMR‐specific parameters: spin density ϱ, chemical shifts δ, and the relaxation times T1 and T2. The numerous well developed methods available make it possible to study dynamic processes by fast imaging with a temporal resolution in milliseconds. This not only allows the imaging of moving objects without incurring movement artefacts but also the measurement of diffusion constants in isotropic and anisotropic diffusion—in the latter case allowing, in principle, the determination of the complete diffusion tensor. The spatially resolved measurement of the relaxation times yields information on molecular mobility and bonding, e. g. the bonding of water, or other solvents, to polymers, the mobility of fluids in polymers or ceramics, or the three‐dimensional evaluation of pore size in porous materials. In biomedicine, NMR microscopy allows the observation of growth on the cellular level, the study of embryos, and the development of therapeutic methods in animal experiments. It can lead to a drastic reduction in the number of animal experiments, and in combination with volume‐selective spectroscopy gives valuable information on in‐vivo metabolism. Copyright © 1990 by VCH Verlagsgesellschaft mbH, Germany