What is an interbody device?
An interbody fusion cage (colloquially known as a “spine cage”) is a prosthesis used in spinal fusion procedures to maintain foraminal height and decompression. They are cylindrical or square-shaped devices, and usually threaded.
What is a interbody spinal fusion device?
Anterior interbody cages are titanium cylinders that are placed in the disc space. The cages are porous and allow the bone graft to grow from the vertebral body through the cage and into the next vertebral body.
What is a intervertebral biomechanical device?
CPT code 22853 is reported per interspace to describe intervertebral biomechanical devices, including PEEK cages. The term is both single or plural, “cage(s)”, because sometimes there are two devices placed at a single spinal level.
What is the most common material utilized for interbody implants?
Polyetheretherketone (PEEK) and titanium (Ti) are commonly selected for interbody spacer construction. Although these materials have desirable biocompatibility and mechanical properties, they require further modification to support osseointegration.
What is a peek device?
Peek software and cloud Peek’s product is a family of applications for mobile devices that major device producers license and pre-install. These applications include push email, IM and chat, social networking apps, synchronization and backup, and other mobile features.
What is a spine fixation device?
Abstract. Spinal fixation devices provide stability and restore anatomic alignment in the treatment of fractures, degenerative disease, infection, and tumors and correct congenital deformities such as those seen in scoliosis.
What does CPT code 22853 mean?
Insertion of interbody biomechanical device
CPT code 22853 is described as “Insertion of interbody biomechanical device(s) (eg, synthetic cage, mesh) with integral anterior instrumentation for device anchoring (eg, screws, flanges), when performed, to intervertebral disc space in conjunction with interbody arthrodesis, each interspace (List separately in …
Why do we need spinal implants?
Spinal implants are used to treat many forms of back pain and deformity. Disorders treated can include: scoliosis, kyphosis, degenerative disc disease, and fracture. Its primary function is to help fuse two vertebrae together and replace natural disc material.
How much is a spinal implant cost?
Implant prices have been reported to be in the range of $400 to $1843 for a single pedicle screw, $540 to $2388 for an anterior cervical plate, and $938 to $7200 for a transforaminal lumbar interbody fusion cage, underscoring the wide variability in prices that contributes to the high mean cost of spinal implants.
How does the navigated Adaptix interbody system work?
The navigated Adaptix™ interbody system integrates with the StealthStation™ navigation and O-arm™ imaging systems to enable pre-surgical planning, real-time navigation, and other benefits including virtual sizing of the spinal implant, 3D implant placement visualization, and confirmation of implant placement using the Surgical Synergy™ workflow.
Are there any technologies for interbody fusion cage?
There are several technologies for cage expansion; FLXfit by Expanding Orthopedics offers a unique and patented 3D articulation and lordotic expansion, Staxx by Spinewave stacks plates as risers, Varilift by Wenzel – uses a screw device for enlargement and AccuLIF by CoAlign, which has a unique locking hydraulic solution…
What kind of bone is An interbody fusion cage made of?
There are several varieties: the Harms cage, Ray cage, Pyramesh cage, InterFix cage, and lordotic LT cage, all of which are made from titanium; the Brantigan cage, made from carbon fibre; and the Cortical Bone Dowel, which is cut from allograft femur. The cages can be packed with autologous bone material in order to promote arthrodesis.
How does the FlareHawk interbody fusion cage work?
FlareHawk by Integrity Implants uses stent-like technology, expanding in width, height, and lordosis. Once placed, the cages resist flexion and extension of the spine, and axial forces across the ventral and middle columns.