• Titanium Interbody Cervical Cage
    • Cs Disc

      Cs·DISC– unique cervical cage with “3D-Truss-Ti” structure!

      Cs·DISC” is designed for surgical treatment of cervical spine. Its task is restoration of natural intervertebral space and reconstruction and/or maintenance of cervical lordosis.

      Cs·DISC” is made of Ti-alloy powder by Electron Beam Technology (EBT). Porous implant with special truss structure provides excellent conditions for fusion – bone fills the cage by 65-70%. Its angled and corrugated endplate contact surfaces prevent dislocation after placement of cage into intervertebral space. Cage does not require to be filled with bone or bone substitute.


        • Accelerated bone fusion;
        • Implantation in intervertebral space of cervical spine;
        • One or more level stand alone stabilisation;

        • Specially designed “3D-Truss-Ti” structure:
          • minimal volume of titanium;
          • over  65% space for fusion;
          • light & strong construction;
          • high load bearing resistance;
          • Safe and easy procedure;
        • Wide range of sizes makes implant choice easier;
        • Anatomic implant design;
        • Excellent conditions for fusion;

    csdisc_rtg  csdisc

    Cs·DISC” with Madagascar plate


    At the end of the 20th century, technologies stemming from aero-spacial engineering enabled a whole world of new possibilities in 3D architecture, and were transmited by LfC to the field of spinal implants. Electron beam melting (EBT-Electron Beam Technology) of Ti-alloy powder with over 2000 deg. C in a vacuum chamber – that is the essence of hi-tech need for creation of new generation 3D-implants. Apart from the structure itself, which favors bone ingrowth within the special cells, the design also enables a better osteointegration mechanism reducing fusion time by approximately 40-50 percent and more. This new phenomenon was studied and called „Ivy-like mechanism, L.C.” as a metaphor for mimic way of the natural growth of ivy climbing along the specially made rough surface of truss design.