Cascadia AN Lordotic-Oblique 3D

Interbody System

The Cascadia AN Lordotic-Oblique 3D Interbody System includes a full range of anatomically designed interbodies for multiple spinal applications. This system is designed to offer a comprehensive solution for the restoration and maintenance of disc height to facilitate sagittal balance in the lumbar spine. Lamellar 3D Titanium Technology incorporates 300-500 μm longitudinal channels, which in conjunction with transverse windows can create an interconnected lattice designed to allow for bony integration. [1,2]

Main Features

  • Roughened titanium surfaces have been shown to demonstrate increased protein expression in contrast to smooth titanium surfaces [3,4,5]
  • Convex design resembles anatomic structure of endplates
  • 35° angled posterior wall designed to accommodate vertebral anatomy
  • 10 x 28 and 10 x 32mm footprints available in posterior heights ranging from 4–12mm andlordotic angles of 6°, 12° and 18°

References:
1. Test Report TR-1220.
2. Loh QL and Choong C. “Three-dimensional scaffolds for tissue-engineering applications: Role of porosity and pore size.” Tissue Engineering Part B 19 (230):1 485-502.
3. Karande TS, Kaufmann JM, and Agrawal CM. “Chapter 3: Functions and Requirements of Synthetic Scaffolds in Tissue Engineering.” Nanotechnology and RegenerativeEngineering: The Scaffold, Second Edition. Ed. CT Laurencin and LS Nair. Boca Raton: CRC Press, 2014. Pages 63-102.
4. Bobyn JD, Pilliar RM, Cameron HU, and Weatherly GC. “The optimum pore size for the fixation of porous-surfaced metal implants by the ingrowth of bone.” ClinicalOrthopaedics and Related Research 150 (1980): 263-270.
5. Karageorgiou V and Kaplan D. “Porosity of 3D biomaterials scaffolds and osteogenesis.” Biomaterials 26 (2005): 5474-5491.

 

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