ADVANCED BIOMATERIALS
KEY FEATURE
Advanced LPBF Techniques
Laser Powder Bed Fusion (LPBF) constructs each implant layer by layer by selectively melting fine metal powder with a high-precision laser. This precisely controlled process yields exceptional accuracy and intricate details, ideal for tailor-made medical devices that require complex geometries and tight tolerances.
KEY FEATURE
Efficient and Eco-Conscious
LPBF minimizes material waste by using only the necessary powder and drastically cuts harmful emissions compared to traditional methods. Its flexible, on-demand approach also shortens production cycles, making our implants both cost-effective and environmentally responsible.
KEY FEATURE
Safe, Proven Titanium Alloy
Our Ti-based implants use Ti–6Al–4V, a medical-grade titanium alloy known for its high biocompatibility, corrosion resistance, and tolerance within the human body. This yields strong, lightweight implants that integrate seamlessly, promoting faster recovery and lowering postoperative risk.
KEY FEATURE
Breakthrough Bioresorbable Implants
We pioneer magnesium-alloy implants that dissolve naturally, eliminating the need for removal surgeries. Through our OsseoMatrix™ porous architecture, we precisely control degradation rates while preserving mechanical stability throughout healing. This biomechanically driven approach cuts costs, reduces second surgeries, and ultimately improves patient outcomes.
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.