3D Print Bone
Precision hydroxyapatite and tricalcium phosphate scaffolds for orthopedic implants, craniofacial reconstruction, and bone tissue engineering. Porous architecture matched to native trabecular bone.
Bone Scaffold Services
Patient-Specific Scaffolds
CT scan-derived scaffolds matched to individual anatomy. Cranial plates, spinal interbody cages, and long-bone defect fillers produced from DICOM data. Porosity gradient engineered to match cortical-to-cancellous transition.
Controlled Porosity Architecture
Interconnected macro-pores (300–600 µm) for vascularization and bone ingrowth combined with micro-porosity (< 10 µm) for protein adsorption. Compressive strength tuned from 2 MPa (cancellous) to 150 MPa (cortical equivalent).
Research-Grade Batches
Consistent scaffold batches for in-vitro and in-vivo studies. Dimensional reproducibility ±0.1mm across a 50-piece run. Sterile packaging, certificate of analysis, and full material traceability supplied.
Bone-Mimetic Materials
Natural bone is 70% hydroxyapatite by weight. Our scaffolds replicate this composition to enable true osseointegration — not mere tolerance.
- Hydroxyapatite (HA) — 70% bone mineral composition
- β-Tricalcium phosphate (β-TCP) — resorbable, stimulates remodeling
- Biphasic HA/TCP — tunable resorption rate 60/40 to 20/80
- Silicon-substituted HA — enhanced osteoblast response
- Collagen-HA composite — soft-to-hard tissue interface
- Custom ceramic-polymer hybrid compositions available
Clinical & Research Uses
Orthopedics
Long bone defect repair
Craniofacial
Cranial & facial repair
Spinal
Interbody fusion cages
Research
Tissue engineering studies
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Request Bone Scaffold Specifications
Describe your scaffold geometry, porosity requirements, and regulatory needs for a custom quote.
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