• Home

  • TSPACE® 3D

TSPACE® 3D
TLIF interbody fusion device

Intended Use

  • Stabilization of the lumbar and thoracic spine through transforaminal approach, monosegmental and multisegmental.
  • Always use TSPACE® 3D in conjunction with an internal fixator.
  • TSPACE® 3D can be implanted through an open or minimally invasive transforaminal access.

 

Implant Design

  • Solid frame without sharp edges for biomechanical stability and smooth insertion into the disc space minimizing the risk to injure surrounding soft tissue.
  • Open porous structure designed to provide primary and secondary stability.
  • The implant’s anatomical endplate design provides a good contact area between implant and vertebral endplates whilst allowing addition of bone material to enable bone growth through the center of the implant.
  • Bulleted nose for smooth insertion into the disc space.
  • The articulating interface allows a firm connection to the inserter until the final implant positioning is achieved, thus enabling a controlled insertion.
  • Good visibility in X-ray to localize implant positioning [1], [2].
Read more

Intended Use

  • Stabilization of the lumbar and thoracic spine through transforaminal approach, monosegmental and multisegmental.
  • Always use TSPACE® 3D in conjunction with an internal fixator.
  • TSPACE® 3D can be implanted through an open or minimally invasive transforaminal access.

 

Implant Design

  • Solid frame without sharp edges for biomechanical stability and smooth insertion into the disc space minimizing the risk to injure surrounding soft tissue.
  • Open porous structure designed to provide primary and secondary stability.
  • The implant’s anatomical endplate design provides a good contact area between implant and vertebral endplates whilst allowing addition of bone material to enable bone growth through the center of the implant.
  • Bulleted nose for smooth insertion into the disc space.
  • The articulating interface allows a firm connection to the inserter until the final implant positioning is achieved, thus enabling a controlled insertion.
  • Good visibility in X-ray to localize implant positioning [1], [2].