Addressing a systematic vibration artifact in diffusion-weighted MRI

## Abstract ## Purpose: To provide a quantitative assessment of motion and distortion correction of diffusion‐weighted images (DWIs) of the breast and to evaluate the effects of registration on the mean apparent diffusion coefficient (mADC). ## Materials and Methods: Eight datasets from four pat

## Abstract A method of correcting motional artifacts in diffusion‐weighted images is described. Motion causes changes in the phase of the __k__‐space NMR signal and thereby introduces positional shifts (or ghosts) in the spatial domain. By correcting the phase of the NMR signal before Fourier tran

## Abstract ## Purpose: To retrospectively determine the additional value of diffusion‐weighted magnetic resonance imaging (MRI) to T2‐weighted imaging in the evaluation of anal fistulae in comparison with gadolinium (Gd)‐enhanced imaging. ## Materials and Methods: Thirteen patients (mean age, 3

## Abstract Diffusion‐weighted MRI is a clinically useful technique, but its utility is compromised by high sensitivity to patient motion. Use of radial‐scan data acquisition and projection reconstruction, rather than the conventional Fourier imaging method, can substantially reduce the sensitivity

## Abstract Single shot echo‐planar imaging (EPI) sequences are currently the most commonly used sequences for diffusion‐weighted imaging (DWI) and functional magnetic resonance imaging (fMRI) as they allow relatively high signal to noise with rapid acquisition time. A major drawback of EPI is the

## Abstract ## Purpose To understand the diffusion attenuated MR signal from normal and ischemic brain tissue in order to extract structural and physiological information using mathematical modeling, taking into account the transverse relaxation rates in gray matter. ## Materials and Methods We