OsseoLabs
OsseoLabs is dedicated to pioneering medical AI, 3D-printed biomaterials, and bio-mimetic innovations to create transformative healthcare solutions. Their mission is to develop advanced, bio-inspired implants and surgical solutions that seamlessly integrate with the body, enhancing surgical accuracy, reducing operation times, and improving patient outcomes.
Industries
Nr. of Employees
small (1-50)
Products
Personalized 3D-printed titanium implants
Patient-specific implants produced from medical-grade titanium alloy, optimized for anatomical fit and mechanical performance.
Biodegradable magnesium-alloy scaffolds
Magnesium-based resorbable implants and scaffolds with controlled degradation enabled by tailored porous architectures to maintain mechanical stability through healing.
Porous bio-mimetic implants with functionally graded TPMS architecture
Implants using TPMS geometries and functionally graded porosity to promote bone in-growth, reduce stress shielding, and balance permeability with stiffness.
3D-printed surgical guides and pre-designed plates
Custom surgical guides and pre-shaped fixation plates produced from digital surgical plans to reduce intraoperative time and improve placement accuracy.
Personalized 3D-printed titanium implants
Patient-specific implants produced from medical-grade titanium alloy, optimized for anatomical fit and mechanical performance.
Biodegradable magnesium-alloy scaffolds
Magnesium-based resorbable implants and scaffolds with controlled degradation enabled by tailored porous architectures to maintain mechanical stability through healing.
Porous bio-mimetic implants with functionally graded TPMS architecture
Implants using TPMS geometries and functionally graded porosity to promote bone in-growth, reduce stress shielding, and balance permeability with stiffness.
3D-printed surgical guides and pre-designed plates
Custom surgical guides and pre-shaped fixation plates produced from digital surgical plans to reduce intraoperative time and improve placement accuracy.
Services
Cloud-based surgical planning and collaboration
Web-accessible platform for remote surgical planning, model review, and collaboration between clinicians and engineers; supports automated model generation and workflow management.
Design and on-demand manufacturing of patient-specific implants and surgical instruments
Custom design and additive manufacturing services for implants, surgical guides, plates, and instruments tailored to individual patient anatomy.
Custom biomaterials development and alloy selection
Materials R&D and selection for implant performance, including development of medical-grade titanium components and biodegradable magnesium-alloy scaffolds with controlled degradation.
Integration of digital design-to-production workflows
Linking computational design outputs to surgical planning tools and manufacturing systems to streamline verification, approval, and rapid fabrication.
Cloud-based surgical planning and collaboration
Web-accessible platform for remote surgical planning, model review, and collaboration between clinicians and engineers; supports automated model generation and workflow management.
Design and on-demand manufacturing of patient-specific implants and surgical instruments
Custom design and additive manufacturing services for implants, surgical guides, plates, and instruments tailored to individual patient anatomy.
Custom biomaterials development and alloy selection
Materials R&D and selection for implant performance, including development of medical-grade titanium components and biodegradable magnesium-alloy scaffolds with controlled degradation.
Integration of digital design-to-production workflows
Linking computational design outputs to surgical planning tools and manufacturing systems to streamline verification, approval, and rapid fabrication.
Expertise Areas
- Digital surgical planning and remote collaboration
- Additive manufacturing for medical implants (LPBF)
- Biomaterials development: titanium and magnesium alloys
- Bio-mimetic porous implant design (TPMS, functionally graded)
Key Technologies
- Laser Powder Bed Fusion (LPBF)
- Triply Periodic Minimal Surface (TPMS) porous geometries
- Functionally graded porous architectures
- Ti-6Al-4V medical-grade titanium alloy