• Titanium Interbody Cervical Cage
    • Cs·DISC

      Unique cervical cage with ”3D-Truss-Ti” structure!

      Cs·DISC” a prosthesis intended for use in cervical spine stabilization. It is tasked with the restoration of the natural height of intervertebral space, reconstruction, and/or maintenance of cervical lordosis.

      Cs·DISC” is made of Ti-alloy powder and manufactured using Electron Beam Technology (EBT). A porous implant with a special truss structure providing an excellent environment for a fusion where bone can fill the cage up to 65-70%. Its directional and corrugated (serrated) contact surfaces called ”shark teeth” prevent movement and dislocation after implantation into intervertebral space. Due to ”3D-Truss-Ti” construction functionality, the cage does not require a bone graft or a bone substitute.


        • Acceleration of bone fusion;
        • Implantation in intervertebral space of cervical spine;
        • Standalone stabilization on one or more level;


        Compatible products:
        asCpAsCP Madagascar


        • Specially designed ”3D-Truss-Ti” structure:
          • minimal volume of titanium;
          • over 65% of space for bone fusion;
          • light & strong construction;
          • high load-bearing resistance;
          • safe & easy procedure;
        • Wide range of sizes;
        • Anatomical shape;
        • Surface of 3D-Truss prone to bone overgrowth;
        • Design providing excellent conditions for bone fusion;

    Clinical Cases

    “Cs·DISC” with Madagascar plate

    csdisc_rtg  csdisc


    At the end of the 20th century, technologies stemming from aero-space engineering opened a world of new possibilities in 3D spatial architecture. LfC managed to transmit this space technology to the field of spinal implants. Electron beam melting (EBT-Electron Beam Technology) of Ti-alloy powder with temperatures over 2000 deg. C in a vacuum chamber -that is the essence of technology used to create a new generation of 3D-implants. Apart from the structure itself, which favors bone ingrowth within the spatial cells, the implant’s design enables an accelerated osteointegration mechanism reducing fusion time by 40-50 percent and more. This new phenomenon was studied and called „Ivy-like mechanism, L.C.” as a metaphor for the natural growth process of ivy, which climbs along the specially made rough surface of truss design.

    Ciupik L.F., Kierzkowska A., Cęcek J., Pieniążek J. Sterna J., Cieślik-Górna M. The use of incremental technology to produce 3D-Truss Ti6Al4V implants which improves the spinal treatment effectiveness. Key Engineering Materials; 2016; 687: 179-184.

    Ciupik L.F., Kierzkowska A. Technology-biomechanical evaluation of metal biomaterials derived by layer technology. Engineering of Biomaterials; 2010; 93: 14-18.

    BULLETIN No. 03/2020
    BULLETIN No. 02/2020

    BULLETIN No. 03/2020
    BULLETIN No. 02/2020

    Poster: Innovative 3D-Ti-Printing in a Worldwide spinal surgery