The Cervical Interbody Cage Curved Wedge-shaped Parallel with PEEK and Titanium is designed with pyramidal teeth, axial window to provide solutions for Ruptured and herniated discs, degenerative disc disease and spinal instability, pseudarthrosis or failed spondylodesis.
The Cervical Interbody Cage is designed with pyramidal teeth, axial window to provide solutions for Ruptured and herniated discs, degenerative disc disease and spinal instability, pseudarthrosis or failed spondylodesis.
The OLIF cage is desgned with anatomical structure, large central window, pyramidal teeth, three lordotic angles, and could meet the special requirements of lumbar oblique lateral interbody fusion, focusing on curing degenerative disc diseases and spinal instabilities, revision procedures for post-discectomy syndrome, pseudoarthrosis or failed spon1
MIS Anterolateral Spine Access System is an instrument set with retractor, dilators and free arm dedicated to assisting the surgery of oblique lateral interbody fusion.
The TLIF cage is desgned with anatomical structure, optimal condition for fusion to replace lumbar intervertebral discs and to fuse the adjacent vertebral bodies together at vertebral levels L1–S1. The TLIF implant is designed for a transforaminal approach.
The PLIF cage is desgned with optimal condition for fusion, specially aligned teeth, axial window, maximized contact area, x-ray Marker, bevelled leading end, focusing on curing narrow lumbar spinal canal, pseudarthrosis or failed arthrodesis, degenerative disc disease and spinal instability, degenerative spondylolisthesis, spondylolisthesis with s1
The Direct Lateral Interbody Fusion Cage (DLIF) is designed to provide access and treatment to the lumbar spine via a lateral or anterolateral approach, including anterior retroperitoneal exposure through a small incision. This surgical technique allows the placement of DLIF Cage across the disc space while avoiding the anterior vessels, posterior 1
Titanium Mesh is available in different heights for individual pathology and anatomical conditions. Open architecture for Titanium Mesh allows bony fusion and optimize bony ingrowth and its parallel end rings to restore normal spinal alignment and resist subsidence. In the meantime, Titanium Mesh is used for Trauma, Tumor, Spondylolisthesis, D1
Titanium Mesh is available in different heights for individual pathology and anatomical conditions. Open architecture for Titanium Mesh allows bony fusion and optimize bony ingrowth and its parallel end rings to restore normal spinal alignment and resist subsidence. In the meantime, Titanium Mesh is used for Trauma, Tumor, Spond1