Originally proposed as a method to increase sensitivity by extending the locally high-
sensitivity of small surface coil elements to larger areas via reception, the term parallel …

Accurate detection and characterization of liver observations to enable HCC diagnosis and
staging using LI-RADS requires a technically adequate imaging exam. To help achieve this …

The benefits and challenges of highly parallel array coils for head imaging were investigated
through the development of a 3T receive‐only phased‐array head coil with 96 receive …

A 128‐channel receive‐only array coil is described and tested for cardiac imaging at 3T. The
coil is closely contoured to the body with a “clam‐shell” geometry with 68 posterior and 60 …

Despite past controversies, increasing evidence has led to acceptance that white matter
activity is detectable using functional magnetic resonance imaging (fMRI). In spite of this …

In modern magnetic resonance imaging, signal detection is performed by dense arrays of
radiofrequency resonators. Tight-fitting arrays boost the sensitivity and speed of imaging …

The radiofrequency (RF) receive coil is a direct probe for magnetic resonance imaging
(MRI), and its performance determines the quality of MRI results. The RF coil employed for …

This paper presents a review on the biomedical applications of electromagnetic detection in
recent years. First of all, the thermal, non-thermal, and cumulative thermal effects of …

Magnetic resonance imaging systems rely on signal detection via radiofrequency coil arrays
which, ideally, need to provide both bendability and form-fitting stretchability to conform to …

Purpose A 128‐channel receive‐only array for brain imaging at 7 T was simulated,
designed, constructed, and tested within a high‐performance head gradient designed for …