Sicherheit und Effektivität eines in Electron-Beam-Melting-Technik hergestellten Titan-Mesh-Cages zur intersomatischen lumbalen Fusion

“…Bionic structures can also be considered. Zippelius et al designed a “banana-shaped” cage made of Ti with curved rails on the surface that can help embed the endplates of the vertebrae, securing the cage to the desired location on the ventral edge strip (such as on the rails) while extending the surface and facilitating better skeletal integration, and they obtained a good fusion rate in 60 patients by using this approach ( Zippelius et al, 2018 ). In addition, Kim et al designed a scalable interbody device (inserted in the form of contraction and expanded in situ after being correctly located in the intervertebral space), which is suitable for minimally invasive interbody fusion.…”

Biomaterials for Interbody Fusion in Bone Tissue Engineering

“…Bionic structures can also be considered. Zippelius et al designed a “banana-shaped” cage made of Ti with curved rails on the surface that can help embed the endplates of the vertebrae, securing the cage to the desired location on the ventral edge strip (such as on the rails) while extending the surface and facilitating better skeletal integration, and they obtained a good fusion rate in 60 patients by using this approach ( Zippelius et al, 2018 ). In addition, Kim et al designed a scalable interbody device (inserted in the form of contraction and expanded in situ after being correctly located in the intervertebral space), which is suitable for minimally invasive interbody fusion.…”

Biomaterials for Interbody Fusion in Bone Tissue Engineering

Current update and trend of 3D printing in spinal surgery: A bibliometric analysis and review of literature

Comparison of Lumbar Interbody Fusion with 3D-Printed Porous Titanium Cage Versus Polyetheretherketone Cage in Treating Lumbar Degenerative Disease: A Systematic Review and Meta-Analysis