Three-Dimensional Printing of a Spinal Interbody: Design Principles, Biomaterials, and Translational Considerations
Sahil Garg, Patrick Young, Christopher Franquemont, Rachel Conley, Sanjitpal Gill

TL;DR
3D printing allows for better spinal implants by combining mechanical strength with biological benefits, potentially improving surgical outcomes.
Contribution
The paper reviews how 3D printing enables the design of interbody devices with optimized mechanical and biological properties.
Findings
3D-printed titanium cages may reduce subsidence and improve bone integration compared to traditional implants.
Porous lattice designs allow for tunable stiffness and better load sharing in spinal implants.
Surface features and coatings influence biological responses like angiogenesis and osteogenesis.
Abstract
Background: Interbody spinal fusion is a common surgical treatment for degenerative, traumatic, and deformity-related spinal pathologies. Despite advances in cage geometry and fixation strategies that improve alignment and early stability, reliable fusion remains limited by the mechanical and biological constraints of conventional interbody implant materials. Traditional titanium and polymer-based cages often fail to optimally balance load sharing, osteointegration, and biological activity within the mechanically demanding interbody environment. This narrative review examines the development and translational potential of 3D-printed interbody fusion devices, with emphasis on how additive manufacturing enables the integration of mechanical performance with biologically active scaffold design. Methods: A thorough literature review was performed to evaluate the evolution, design…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsBone Tissue Engineering Materials · Spine and Intervertebral Disc Pathology · Cervical and Thoracic Myelopathy
