Discovery MR450 Does Real-Time Cardiac Imaging
GE Healthcare's 1.5T magnetic resonance (MR) scanner, Discovery MR450, offers some of the most advanced capabilities available on any 1.5T system, including real-time cardiac imaging, single-acquisition, multi-contrast abdominal images with outstanding fat/water separation and ultra high-resolution musculoskeletal exams with high patient throughput.
Built around the company’s proven short-bore, superconducting 1.5T magnet — the Discovery MR450 delivers high homogeneity for excellent results even when imaging with a large or off-center field of view (FOV). Workflow and productivity issues are also addressed with the new system with gains of up to 60 per cent additional anatomical coverage and resolution per unit time compared to conventional systems, increased acquisition speed over previous generations of 1.5T systems.
GE’s Discovery MR450 features several new advanced applications, including: SWAN (T2 Star Weighted Angiography), which combines a unique 3D T2-based multi-echo acquisition with a special reconstruction algorithm. It generates several echoes, which are read out at different TE times, and compiles magnetic signatures of a range of tissues with varying degrees of T2 contrast.
With SWAN, users can visualize major vessels and large vascular structures, accurately delineate small vessels and microbleeds, assess iron and calcium deposits in tissue and image the whole brain in 3D high resolution in just 4 minutes.
The new GE suite of Inhance Non-Contrast Enhanced MR Angiography (MRA) applications is robust, fast and easy to use. Inhance sequences deliver consistent, reproducible images even in difficult-to-scan anatomies, for fewer rescans and confident differential diagnoses.
For more information: www.gehealthcare.com
More like this
- GE, VPDiagnostics Collaborate on MRI of Carotid Artery Atherosclerosis Imaging, Plaque Analysis
- GE Introduces New Signa 3.0T MR with 60 Percent More Coverage
- GE Unveils New Wide Bore 1.5T MRI System
- A Marketplace Ripe for Wide Bore Systems
- Siemens Introduces Dual Energy Applications for General Imaging