Here are five highlights.
1. The company designed InTice-C using OsteoSync Ti, a cost-effective, highly porous titanium scaffold material for implant fixation.
2. InTice-C’s surface resembles the bioscaffold of cancellous bone. The system is also cleared for use with Xtant’s allograft lines.
3. Xtant designed the system to offer multiple footprint, height and endplate options. Its commercial pure titanium structure provides continuous pore interconnectivity.
4. Additionally, the cervical interbody system is designed to optimize vascularization at the fusion site, allowing the implant to be a included in the fusion process.
5. InTice-C uses machined endplate structures in conjunction with porous titanium to provide migration resistance. The implant is offered in individual sterile packages.
More articles on surface technology:
The future of spine technology: 13 surgeon predictions
Additive Orthopaedics receives FDA clearance for patient-specific 3D-printed implants for ankle and foot: 3 insights
4 things to know about the U.S. launch of K2M’s Mojave PL 3D Expandable Interbody System
