Double Medical, founded in China Double Medical is a global health care solutions company. With thirteen worldwide subsidiary corporations and three hospitals, we are committed to improving quality of lives by our medical technologies and service in the area of orthopedics, wound management, neurosurgery, and general surgery.
Anterior Cervical Spine Locking Plate System IV with its low profile design and special locking mechanism can help to stabilize the cervical spine from C2 to C7
The Cervical Interboday Cage for the treatment of ruptured and herniated discs, degenerative disc disease and spinal instability, pseudarthrosis or failed spondylodesis.
The Anterior Cervical Spine Plate Ⅰ is designed with graft visibility window, adjusting angle, anti-migration system, color-coded, self-drilling screws, low profile to provide treatments for degenerative disc disease, trauma, tumors, deformity (defined as kyphosis, lordosis, or scoliosis), pseudarthrosis, failed previous fusions and so on.
The Anterior Cervical Spine Plate Ⅲ is designed with double and single line, bending zones, maximized visibility window, locking structure, low profile, variable and fixed angle screws, anti-slippage teeth to provide solutions fordegenerative disc disease, trauma,tumors,deformity (defined as kyphosis, lordosis, or scoliosis),pseudarthrosis, failed previous fusions and so on.
The Cervical Spine Screw System is desgned with occipital plate, transconnector, lamina hook, parallelled connector, two fixation systems. And the whole system is highly flexible, with greater adjustability andhigher safety, convenient for surgeon to complete occipitocervical fixation and occipitocervical fusion, focusing on curing degenerative disc disease, rheumatoid arthritis, deformity, trauma, tumor and infection.
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 spondylodesis, degenerative spondylolisthesis, spondylolytic spondylolisthesis and so on.
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 stenosis.
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 neural and bony elements.
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 TINA Derotation System is desgned with reduction instrument, derotation quick stick, derotation quick stick frame, derotation alignment fork. The system can satisfy the necessary of various derotation and specific anatomy, implement 3D derotation rapidly for surgeons, provide great operation for the derotation of tip cone and restore the alignment on sagittal view. 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 spondylodesis, degenerative spondylolisthesis, spondylolytic spondylolisthesis and so on.
The innovative design of TINA MIS could satisfying surgeon with low-profile minimally invasive spine system and more convenient operation.
The TINA Spine Pedical Screw System is designed with maximal 50° polyaxial pedicle screw which could facilitate the placement of pedicle screw and rod. For system 5.5 and 6.0 we offer the same instrument set for clinical option. Illiac Screws with large diameter are provided for sacroilliac reduction and internal fixation.