High-resolution nuclear magnetic resonance spectroscopy of biological tissues using projected magic angle spinning

## Abstract The recently developed technique of gradient, high‐resolution magic‐angle spinning NMR (g‐hr‐MAS‐NMR) spectroscopy was applied to the study of __ex vivo__ human lipoma and liposarcoma tissue. Compared with conventional ^1^H‐NMR, the g‐hr‐MAS method yielded a large improvement in spectra

## Abstract The application of new gradient, high‐resolution, magic angle spinning (MAS) ^1^H nuclear magnetic resonance (NMR) spectroscopy to the study of intact undifferentiated and differentiated NIH 3T3 F442A cells demonstrated improved spectral resolution and sensitivity compared with static s

## 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

We report the results of a study of human breast ductal carcinomas, conducted by using high resolution magic angle spinning proton magnetic resonance spectroscopy (HRMAS 1HMRS). This recently developed spectroscopic technique can measure tissue metabolism from intact pathological specimens and ident

By applymg magic an& sptnnmg to proton rnqnctlc rcsonancc of zcoh~cs, IWO dlffcrcnt lmcs WLTC s~p.urltcd Corn-panson of the corrcspondmg rcsonmcc shifts wth values for OH groups of other adsorbcnts and of orgx~c compounds m solution showed that the signals must bc due to hydro\yl groups of dlffcrcnt

The use of high-resolution magic angle spinning NMR spectroscopy for in situ studies of low-molecularmass compounds in red algae has been studied. The impact of different acquisition parameters on the resulting T 2 -filtered one-dimensional high-resolution magic angle spinning 1 H NMR spectra is des