Prostate Cancer Surveillance can be Enhanced...
- Imaging
- 02/05/2024
The uMR®680 was designed with a high performance system: outstanding gradient performance of 45 mT/m & 200 T/m/s and excellent magnetic field homogeneity with a 70cm wide bore, expanding your capabilities in the field of clinical applications and research. Empowered by uAIFI Technology, the uMR®680 delivers '3.0T-like' image quality and achieves a new standard in workflow and patient care.
Powerful Gradient Performance
The remarkable 45 mT/m & 200 T/m/s (simultaneous on each axis) unlock higher signal-to-noise ratio (SNR) for neuro and cardiac imaging.
High-Density RF Channels
Enable the full use of high-density surface coil arrays, thus significantly improving image quality.
Deep learning (DL) based image reconstruction technology, simultaneously improving SNR and image sharpness.
*CE registration is in progress. Not yet commercially available in the EU.
Intelligent Noise Reduction
Intelligently removes noise from images while maintaining excellent diagnostic image quality.
Improved Image Sharpness
Delivers high-resolution anatomical structure with sharper anatomical structure.
High Fidelity
A double safety lock design in both image domain and K-space domain for high-reliability results.
Broad Field-of-View
Applicable for multi-bed scanning such as whole spine and whole-body imaging.
Shoulder PDW FS
Conventional (2:56 min) vs. uAIFI DeepRecon™ (2:56 min)
0.29×0.29×3 mm3
Knee PDW FS
Conventional (2:32 min) vs. uAIFI DeepRecon™ (2:32 min)
0.35×0.35×3 mm3
Spine T2W STIR
Conventional (2:44 min) vs. uAIFI DeepRecon™ (2:44 min)
1.11×1.11×4 mm3
Cardiac T2W DB SPAIR
Conventional (9.4 sec) vs. uAIFI DeepRecon™ (9.4 sec)
0.78×0.78×4 mm3
Industry's first dual-source phased-array millimeter-wave radar solution for contactless sensing of patients' respiratory motions.
*CE registration is in progress. Not yet commercially available in the EU.
Streamlined Workflow
No need for technologists to attach a respiratory belt to patients.
Better Patient Comfort
Contactless sensing for free breathing, better for patients with respiratory challenges.
Dual-Souce Millimeter-Wave Radar
Fully integrated within the MRI bore and unobstructed by clothing or MRI RF coils.
Outstanding Stability and Accuracy
0.1mm detection accuracy of breathing motion with a temporal resolution up to 20ms.
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