High Performance 3.0T MR

The uMR® 790 is a system designed to energize innovative and collaborative research with exceptional gradient performance and ultra-high homogeneity, delivering finely detailed anatomical structures and valuable functional information. Outstanding long-lasting stability and consistency facilitate group studies and multicenter clinical research projects. An extensive range of advanced applications enables complex examinations across the whole body, taking your capabilities to the next level.

Remarkable 100mT/m & 200T/m/s Gradient Performance

Strong Collaboration and Open Architecture

United Imaging Scientific Research Platform system

Academic-Level High Performance Hardware Platform

The uMR® 790 provides ultra-high magnet homogeneity and gradient performance, which is a solid hardware foundation for scientific research.

Ultra-High Gradient Performance

The uMR® 790 is designed with ultra-high gradient performance of 100 mT/m & 200 T/m/s. The Research Gradients employ a full-digital GPA with 2.0 MW peak power developed in-house by United Imaging. It breaks technical bottlenecks in designing and manufacturing gradient coils with high strength, high linearity, and high precision, allowing for constantly high power-output and higher gradient performance.

Ultra-High Uniformity Magnet

The uMR® 790 achieves an ultra-high magnet homogeneity which is several times the uniformity of conventional high-end 3.0T MR scanners. It also provides both wide-range and local magnetic fields with more precision, delivering outstanding image quality for both large FOV imaging and high-definition small FOV imaging.

uCS2.0 Platform

The uCS2.0 Platform enables efficient application of compressed sensing with a routine clinical workflow for 2D/3D/4D MR exams. The uCS2.0 imaging technology pushes clinical boundaries of isotropic resolution and dynamic imaging speed.
uCS2.0 Imaging
Technology

The uCS2.0 Imaging Technology combines the strength of conventional acceleration technologies and innovative compressed sensing, bringing shorter scanning time
and higher image resolution of MRI with a maximum acceleration factor of 16x and sub-millimeter isotropic spatial resolution.

uCS2.0 Processing Engine

The uCS2.0 Processing Engine is a high-performance computing hardware that includes memory, data network and premier CPU. The intelligent reconstruction algorithm complements the outstanding computational power, resulting in ultra-fast reconstruction.

PlaqueTool*

One-click post-processing for plaque identification and analysis.

*Caution - Not submitted to FDA; not commercially available in the U.S.
Intelligent Centerline Extraction

Automatic centerline extraction and centerline editing tools are provided to visualize the intracranial and carotid vessels.

Intelligent Vessel Wall Segmentation and Analysis

Automatic vessel wall segmentation, and contour editing tool are provided, allowing the user to perform vascular segmentations and stenosis analysis.

Intelligent Plaque Analysis

Provides users with a variety of segmentation and editing tools, allowing users to segment and analyze plaque and composition.

3D Mesh

3D rendering showing the fusion of blood vessels and plaques, visually presenting information on the structure of blood vessels and plaques.

Clinical Application

Resting-state fMRI
Head DTI
Cardiac Mapping
0.4mm Isotropic vessel wall T1W Matrix 3D FS
0.1mm High-resolution head imaging