GE HDXT 1.5 T MRI

GE HDXT 1.5 T MRI

You’ve been heard. When you want more out of your MRI scanner, GE listens. And when you demand more accuracy, more productivity, and more support, GE delivers. Built on the high definition platform you know and trust, Signa HDxt offers an MR System that allows you to see more, do more, and expect more than ever before.

Product Description

 

The next generation in High-Definition MR.

See more with truly high-definition, anatomically optimized imaging. Engineered for enhanced image contrast, reduced blurring, smaller field-of-view prescriptions, and reduced artifacts. Do more with consistent high-quality imaging through can’t-miss applications. Designed for optimal fat suppression, tissue characterization, and artifact reduction, every time.

 

You’ve been heard. When you want more out of your MRI scanner, GE listens. And when you demand more accuracy, more productivity, and more support, GE delivers. Built on the high definition platform you know and trust, Signa HDxt offers an MR System that allows you to see more, do more, and expect more than ever before.

GE was the first to introduce 1.5T MR technology. Today, we have the world’s largest installed base of 1.5T scanners. And we’re the only MR manufacturer celebrating more than a quarter of a century of upgradeability. In fact, HDxt is available as a new system—as well as an upgrade to our current installed base customers.

The Signa HDxt 1.5T is engineered from end-to-end to allow you to see more. With GE’s high-density coils, data acceleration technology, and high-definition applications optimized for each anatomical area, GE can deliver images with the enhanced contrast, clarity, and accuracy you need.

 

Neuro Imaging 

GE’s advancements in neuro imaging continue with the delivery of Optima Edition enhancements. In short, Signa HDxt 1.5T Optima Edition is a natural for neuro.

 

 

Enhanced DWI 

The enhanced DWI technique supports multiple b-values in one acquisition with flexible control of NEX for each b-value. Novel diffusion techniques “3-in-1” and “tetrahedral” allow applying gradients in multiple directions simultaneously to improve scan efficiency and signal-to-noise ratio.

SWAN

BrainWave

PROPELLER*

 

3D ASL

3D ASL is a robust non-contrast tissue perfusion imaging technique that provides quantitative assessment of cerebral blood flow (CBF) and color perfusion maps (bottom). The hyperintense signal in the left parietal occipital lobe on this axial T2 image (far right) correlates well with clearly depicted hyperperfusion on the 3D ASL image (right). Note excellent SN throughout the entire anatomy.

 

Cube*

Cube replaces several plane-after-plane 2D acquisitions with a single 3D volume scan—providing you with T2, T2 FLAIR, or PD contrast. Easily reformat sub-millimeter isotropic volume data from a single acquisition into any plane without gaps— and with the same resolution as the original plane.

ARC is an innovative, auto-calibrating, data- driven, parallel imaging method designed to reduce scan time and streamline reconstruction with high accuracy. In addition, it enables small fields of view during prescription.

 

 

BRAVO*

A 3D inversion-prepared SPGR technique, BRAVO provides high resolution T1-weighted brain images with optimized grey-hite matter contrast, using GE’s innovative self-calibrating ARC parallel imaging technique. This 3D image of a patient with brain metastasis was acquired with 1 mm3 voxel.

 

BLAVA Flex

LAVA Flex is a 3D FSPGR imaging technique that generates water-only, fat-only, in-phase and out-of-phase echoes out of one single acquisition that is typically completed in one 20 s breath-hold. The additional contrasts can aid in differential diagnosis, like in this case of angiomyolipoma, a tumor with fat component. LAVA Flex can replace LAVA in the multi-phase dynamic study of the liver.

 

LAVA

LAVA provides whole-abdominal coverage at high resolution in short breath-holds, with an excellent fat suppression and resolution.

 

3D Dual Echo

3D Dual Echo produces perfectly registered, in-phase and out-of-phase images in a single breath-hold—and eliminates inter- ice gaps that could compromise small lesion detection.

 

Enhanced DWI

The enhanced DWI technique supports multiple b-values in one acquisition with flexible control of NEX for each b-value. Novel diffusion techniques “3-in-1” and “tetrahedral” allow applying gradients in multiple directions simultaneously to improve scan efficiency and signal-to-noise ratio. This eDWI image of a patient with a pancreas endocrine tumor and liver metastases (left) was generated using inversion recovery and a b value of 600 s/mm2 . An FRFSE T2 image (right) provides anatomic detail.

 

MSK Imaging

With a technique that allows you to scan once and get multiple contrasts—water only, fat only, in-phase, and out-of-phase and delivers virtually infallible fat suppression, Signa HDxt 1.5T with Optima Edition package makes no bones about capturing musculoskeletal anatomy like you’ve never seen it.

 

High-Density Coils

HD Wrist Array

The HD Wrist Array is an 8-channel phased array design that is optimized for parallel imaging.

HD Knee Array

Tapered to the knee for superb SNR performance, the HD Knee Array’s 8-channel, 9-element transmit/receive phased-array design virtually eliminates aliasing artifacts for superior, high resolution imaging.

HD Foot and Ankle Array

The HD Foot and Ankle Array is optimized for ASSET parallel imaging and produces exquisite images of the structures of the foot and ankle. The design also provides fast and easy set-up.

HD Shoulder Array

with Concentric Technology The HD Shoulder Array introduces an innovative concentric coil design by GE tha provides improved coverage, while also improving SNR penetration. It also is optimized for off-center imaging with robust fat saturation.


 

Enhanced MRCP

3D Velocity

HD Body Array

High-Density Coils

3D Heart

Fiesta