Effects of Transverse Cross Relaxation on Magnetization Transfer

The transverse relaxation effects which occur during the application of optimized slice-selective Shinnar-Le Roux pulses are studied. The behavior of both longitudinal and transverse magnetization is examined, focusing the attention on changes which affect the absorption and dispersion components. B

## Abstract We describe the NMR relaxation properties of magnetically labeled cells. The cells are labeled with magnetic nanoparticles (SPIO, USPIO), which generate susceptibility contrast. The geometry of the labeled cells and the surrounding tissue is considered. We assume that the magnetic nanop

In the presence of an off-resonance radiofrequency field, recovery of longitudinal magnetization to a steady state is not purely monoexponential. Under reasonable conditions with zero initial magnetization, recovery is nearly exponential and an effective relaxation rate constant R(1eff) = 1/T(1eff)

The effects of polymer structure and water-macromolecule incan be achieved. Although water relaxation in solutions of teractions on proton relaxation in an aqueous model polymer have diamagnetic proteins is relatively well documented, there is been investigated using quantitative measurements of mag