Spelva™
Precision-designed implants and guides for sacral, pelvic, and spinal reconstructions, particularly for oncology, trauma, or complex deformities.
Bio-Optimization
Custom-fit cages and plates designed for precise anatomical fit, improving adaptation, stability, and load balance.
Enhance Stability
Stability under high load with advanced design, providing reliable support for complex spinal and pelvic reconstructions.
Maximum Biocompatibility
Enhanced fusion support with porous implant architecture that promotes natural bone ingrowth and stability.
Higher and Faster Surgery
Surgical guide integration ensures precise screw placement, improving fixation accuracy and reducing surgery time.
From Design to Recovery:
Diagnosis
Advanced AI model constructs high-resolution 3D model from clinical data to assess patient-specific anatomical and functional needs
Surgical Planning
Utilize OsseoVision™ AI-powered platform to create a precise, personalized surgical plan.
Implant Design
Engineers create a personalized implant blueprint.
Perform Surgery
Execute the procedure with patient-specific devices, ensuring optimal fit, function, and accuracy.
Rehabilitation
Monitor healing and functional recovery with tailored post-operative care protocols.
OsseoLabs integrates the future ML methodology, and overcome challenges in
Fully Biodegradable
Our magnesium scaffolds naturally dissolve in the body, eliminating removal surgeries and reducing overall patient risk and healthcare costs.
Acceleration
Using advanced medical-grade Mg-alloys and LPBF, we craft precise scaffolds tailored to each patient’s unique bone defects, ensuring an ideal anatomical fit.
Tailored Precision
OsseoMatrix™ unites mechanical stability, tailored porosity, and controlled degradation, enabling seamlessly integrated implants that overcome critical Mg 3D printing challenges.
