Fast T1 mapping on a whole-body scanner

High-resolution (~0.22 mm) images are preferably acquired on whole-body 7T scanners to visualize minianatomic structures in human brain. They usually need long acquisition time (~12 min) in three-dimensional scans, even with both parallel imaging and partial Fourier samplings. The combined use of bo

## Abstract ## Purpose To extend observations on intra‐renal oxygenation with blood oxygen level‐dependent (BOLD) MRI in human and rats to mouse kidneys imaged with a human whole‐body scanner. ## Materials and Methods Renal BOLD MRI studies were performed on a 3.0T scanner using a multiple gradi

High-"eld, high-speed magnetic resonance imaging (MRI) can generate high levels of sound within and around the scanner. The process that produces the gradient magnetic "eld is the primary cause of this noise. With the push to greater background magnetic "eld strength and gradient "eld switching spee

## Abstract ## Purpose To determine whether a whole‐body T1‐mapping acquisition method improves the definition of adipose tissue (AT) and simplifies automated AT segmentation compared to an image‐based method. ## Materials and Methods The study included 10 subjects. Two whole‐body volumes were a