Magnetic Resonance Imaging (MRI)
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RC-MRI Medical Imaging
MRI system for producing cross-sectional images of body structures
This product has been discontinued and removed from our shelves.
Magnetic Resonance Imaging (MRI) is a medical imaging technology that uses hydrogen protons in the body to generate signals when exposed to a magnetic field and radiofrequency pulses. These signals are then processed by a computer to reconstruct detailed cross-sectional images of internal body structures.
Our MRI systems offer multiple advantages:
- 1.5T scanning technology for faster imaging and improved clarity.
- EPI high-resolution diffusion imaging and next-generation STIR fat suppression technology for enhanced tissue visualization.
- C-shaped open design providing a 270° wide imaging space for better patient comfort.
- High magnetic field strength delivering high signal-to-noise ratio imaging for full-body scans.
- Compact and lightweight design, making transport and installation easier.
- Low power dependency, with operating costs only 7%-10% of superconducting MRI systems.
Widely used in neurology, abdominal imaging, musculoskeletal diagnostics, and more, this system plays a critical role in disease diagnosis, treatment planning, and medical research.
X-Ray Imaging
MRI Imaging – RC-MRI0.35T & RC-MRI0.4T Basic Infomation
- High-performance short-bore magnet with minimal liquid helium consumption;
- Zero boil-off technology for helium conservation;
- Automated scanning technology for efficient patient examinations;
- Clinically user-friendly with comprehensive functions, enabling rapid and high-quality imaging for both routine and advanced procedures;
- Intelligent device status monitoring ensures stable operation and worry-free usage.
- 100% devoid of liquid helium, operating in a vacuum state with all-solid-state refrigeration technology.
- Lightweight design allowing installation on any floor of a building.
- No quench pipe required, eliminating the risk of cryogenic discharge injuries.
- Unfettered by the constraints of limited liquid helium resources over the equipment's lifetime, leading to lower operating and maintenance costs.
- Enables compressed sensing imaging technology for whole-body scans.
- Free-breathing imaging techniques for enhanced success rates in abdominal imaging.
- Automated scan imaging technology, increasing patient throughput during examinations.
- Adopting the 1.5T scanning imaging technology platform, it offers shorter scan times and clearer images.
- Equipped with high-definition EPI diffusion imaging capabilities and the latest generation STIR fat suppression technology.
- C-type open magnet structure, with a 270-degree unobstructed imaging field of view in the horizontal plane, providing greater patient comfort during examinations.
- Higher magnetic field strength enables high SNR imaging for all parts of the body.
- The magnet is compact and lightweight, facilitating easier transportation and installation.
- Less reliant on power stability, its operational electricity costs are only 7%-10% of those for superconducting systems.
- Adopting 1.5T superconducting scanning and imaging technology, it boasts a wider range of functions, faster speed, reducing imaging time by 50% compared to similar MRI equipment.
- Equipped with advanced superconducting EPI for high-definition diffusion imaging and next-generation STIR technology for fat suppression.
- C-type open magnet structure, with a 270-degree unobstructed imaging field of view in the horizontal plane, providing greater patient comfort during examinations.
- As a classic product, it offers superior performance at a more competitive price-point.
- Less reliant on power stability, its operational electricity costs are only 7%-10% of those for superconducting systems.