Description
Redefining helium-free MRI technology for the modern era.
The ANKE SuperMark 1.5T Helium-Free Superconducting MRI System marks a significant leap in the evolution of MRI technology. With more than 30 years of ANKE’s magnetic resonance innovation embedded in its design, this system provides high-quality imaging without relying on liquid helium — reducing environmental impact, lowering maintenance costs, and ensuring long-term operational stability.
Built for a new generation of radiology practices, it combines AI-powered automation, A-combi coil technology, and next-generation superconducting architecture to provide consistent, high-resolution imaging across all anatomical regions. The short-bore design enhances patient comfort, while advanced noise-reduction systems deliver a quieter, more relaxed scanning experience.
From neurology to musculoskeletal, vascular, and abdominal imaging, the ANKE SuperMark 1.5T Helium-Free MRI ensures uncompromised diagnostic accuracy, faster throughput, and seamless workflow integration for healthcare providers worldwide.
Key Features & Technical Highlights:
• Helium-Free Superconducting Design — Eliminates refilling needs and lowers operational costs while maintaining magnetic field stability.
• 1.5 Tesla Short Bore Magnet — Provides high uniformity, minimizing image distortion and patient discomfort.
• AI-Driven Imaging Workflow — Automates alignment, stitching, and artifact correction for precise and efficient diagnostics.
• A-combi Coil Technology — Expands clinical flexibility, reducing manual coil changes.
• Silent Scanning System — Decreases acoustic noise for a calmer patient experience.
• High-Gradient System — 40 mT/m amplitude and 150 T/m/s slew rate enable faster, clearer scans.
• Energy-Efficient Operation — Optimized design minimizes power consumption and extends equipment lifespan.
Workflow & Patient Experience:
The SuperMark 1.5T Helium-Free MRI transforms radiology workflow with intelligent automation and ergonomic engineering. Its AI-assisted operating system reduces scan setup time, while the spacious, patient-friendly bore and stable table design ensure comfort and safety. Hospitals benefit from minimal maintenance requirements, consistent uptime, and a superior return on investment — proving that innovation and sustainability can coexist in modern medical imaging.
