Tissue characterization of symptomatic and asymptomatic disc herniations by quantitative magnetic resonance imaging

## Abstract Understanding degenerative intervertebral disc diseases hinges on the ability to objectively and noninvasively assess the disc matrix composition and integrity. The potential of quantitative magnetic resonance imaging to meet these demands was evaluated. Analyzing the __T__~1~ and __T__

## Abstract A method combining several previously used approaches is described for the rapid, accurate quantitation of the fat content of biological tissue based on chemical shift images (CSI) corrected for magnetic field inhomogeneity, and compensated for __T__~1~, and __T__~2~, effects. The gravi

The effect of irreproducible bulk tissue motions upon quantification of tissue perfusion and diffusion was studied via computer simulation of random phase error in conventional phase-encoded perfusion/diffusion MRI. Simulations using acquisition parameters typical for human brain studies demonstrate

We report a rare case of a primary small bowel carcinoid in which high-resolution MRI was able to detect a 1-cm primary duodenal neoplasm. This case illustrates that breath-hold contrast-enhanced MRI is capable of evaluating disease of the small bowel.

## Abstract ## Purpose To investigate the influence of targeted trypsin digestion and 16 hours compression loading on MR parameters and the mechanical and biochemical properties of bovine disc segments. ## Materials and Methods Twenty‐two 3‐disc bovine coccygeal segments underwent compression lo

Magnetic resonance imaging analysis of longitudinal relaxation times values), transverse relaxation times (T 1 (T 2 values), magnetization transfer (MT) rates and apparent water di †usion coefficients (D) was used to authenticate the e †ect of freezing/thawing in longissimus dorsi pig muscle ; these