Field Dispersion in Water-Macromolecular Proton Magnetization Transfer

## Abstract These studies were designed to establish which structural elements of cartilage are responsible for proton magnetization transfer between water (Hf) and macromolecules (Hr) observed in MRI studies on articular cartilage. Saturation transfer techniques were used to monitor magnetization

## Abstract The contribution of mitochondria to water‐macromolecule proton magnetization transfer (MT) was evaluated in porcine heart tissue. An examination of isolated mitochondria in suspension, at the same concentration as found in heart tissue, revealed MT effects very similar in magnitude and

Off-resonance lactate magnetization transfer (MT) experiments were performed on the in situ rat liver under perfused and ischemic conditions. A significant MT effect for lactate methyl protons was observed. The effect was larger for the ischemic condition than for the perfused condition, and was lar

With the use of high magnetic fields and improved quality factor ratings of the probeheads in modern NMR spectrometers, radiation damping becomes more and more important. In addition, the demagnetizing field effect from protonated solvents gains significance with the increase of the magnetic field s

## Abstract The proton spin‐lattice relaxation parameters in natural and deuterated lysozyme solutions have been measured as a function of temperature (0–50°C). The variation of the apparent magnitudes of the water proton magnetizations in the solutions with temperature indicates that magnetic coup