High-resolution, slow-spinning magic-angle carbon-13 NMR

## Abstract The development of high‐resolution magic angle spinning (HR‐MAS) NMR spectroscopy for intact tissue analysis and the correlations between the measured tissue metabolites and disease pathologies have inspired investigations of slow‐spinning methodologies to maximize the protection of tis

## Abstract It is shown that high‐resolution ^1^H NMR spectra of intact excised tissues and organs can be obtained by rotating the sample slowly about an axis at the magic angle of 54°44′ with the external magnetic field. In this way tissue and cellular damage invoked by standard magic angle spinni

## Abstract High‐resolution magic angle spinning (HRMAS) NMR spectroscopy has proven useful for analyzing intact tissue and permitting correlations to be made between tissue metabolites and disease pathologies. Extending these studies to slow‐spinning methodologies helps protect tissue pathological

## Abstract High‐resolution magic‐angle spinning has become a valuable tool to study biologic samples; however, there are only a few high‐resolution magic‐angle spinning methodologies that have been explored specifically to deal with small semisolid biomaterials such as tissues. Here, we report a n