Precision-Crafted 1:1 Intracranial Blood Vessel Model – Your Ideal Partner for Testing, Training & Demonstration

Precision-Crafted 1:1 Intracranial Blood Vessel Model – Your Ideal Partner for Testing, Training & Demonstration

Derived from real human CT data, our vascular model is reconstructed and optimized to perfectly replicate the spatial structure and inner diameter of human blood vessels. Covering from femoral artery to A2 segment of anterior cerebral artery & M2 segment of middle cerebral artery, it comes with a complete Willis circle and 5 sizes of intracranial aneurysms for comprehensive simulation scenarios.
1.Flexible Customization: Standard with Type I aortic arch, customizable to Type II, Type III or variant arches on demand. Intracranial, aortic and abdominal parts can be freely connected/disassembled via custom connectors, and each part is replaceable & customizable to fit your specific needs.
2. Stable & Durable: Fixed on an acrylic plate for easy placement and operation. 3D printed with high-quality materials, ensuring reliable performance for long-term use.
3.Versatile Application Scenarios for Professional Needs: • Medical Training: Ideal for novices to practice catheter and guidewire operations in neurointerventional surgeries, mastering femoral artery puncture and vascular access techniques, significantly shortening the learning curve . • Preoperative Planning: Assists interventional radiologists in simulating complex procedures such as intracranial aneurysm embolization, enabling accurate assessment of vascular branching angles and potential operational difficulties to improve surgical success rates . • Device Testing: Serves as a reliable platform for medical device manufacturers to verify the pushability, navigability and compatibility of interventional devices (e.g., stents, catheters) in human-like vascular environments . • Academic Demonstration: Intuitively displays the structure of the Willis circle and aneurysm distribution, enhancing teaching effectiveness in medical schools and academic conferences . With authentic and precise vascular simulation, this model elevates your practice and research efficiency.