3.0T Closed MRI System

Product Description: A 3.0 Tesla closed-bore MRI system represents the pinnacle of modern magnetic resonance imaging, offering a powerful combination of high-field strength and advanced technology. These scanners are built around a superconducting magnet, often with zero helium boil-off technology, ensuring long-term stability and cost-effective operation. The high field strength provides a superior signal-to-noise ratio (SNR), resulting in crystal-clear, high-resolution images that are critical for detailed diagnostics in neurology, oncology, and musculoskeletal imaging. Many modern 3.0T systems feature wide-bore designs (up to 70 cm), advanced gradient systems, and AI-driven applications to improve workflow, reduce scan times, and enhance patient comfort. This makes a refurbished 3.0T closed MRI an excellent, secure investment for facilities looking to upgrade their imaging capabilities to handle complex cases and a high patient volume.

Key Features:

• High Field Strength: 3.0 Tesla superconducting magnet for superior image quality.
• Patient Comfort: Wide-bore design (70 cm) in newer models to reduce claustrophobia.
• Advanced Gradients: High-performance gradients (e.g., 50 mT/m amplitude, 200 T/m/s slew rate) for faster scanning and advanced applications.
• AI-Driven Workflow: Features like automatic coil selection and real-time reconstruction to increase productivity.
• Energy Efficiency: Zero helium boil-off technology and sleep modes to reduce operational costs.
• Applications: Supports a wide range of advanced clinical and research applications, including fMRI, DTI, and spectroscopy.

Technical Specifications (General):

• Brand: Varies by manufacturer (e.g., GE Signa Premier, Siemens Magnetom Prisma, Philips Ingenia).
• Device Type: Closed-Bore MRI Scanner.
• Field Strength: 3.0 Tesla.
• Bore Diameter: 60-70 cm.
• Gradient Strength: Up to 80 mT/m.
• Gradient Slew Rate: Up to 700 T/m/s (with advanced gradients).
• Patient Weight Capacity: Up to 250 kg (550 lbs).
• Cryogen Use: Zero helium boil-off in most modern systems.