The TANGENT® Posterior Impacted Instrument Set allows a surgeon to perform the Posterior Lumbar Interbody Fusion operation with minimal amount of neural retraction required. It also increases the amount of disc space distraction that is possible, and facilitates endplate preparation.

The TANGENT® Posterior Impacted Instrument Set can also be used with the METRx™ System. The objective of the METRx™ System is the same as conventional open surgery — to decompress the nerve root. This is accomplished by applying open surgical techniques through a tubular retractor under microsurgery visualization. For the first time, a laminotomy, medial facetectomy, foraminotomy, nerve root retraction and discectomy can be performed microscopically. In so doing, the METRx™ System combines the benefit of conventional open surgery with the advantages of a minimally invasive technique.

Medtronic, the world leader in spinal instrumentation, has a strong commitment to further developing and refining these techniques. In addition to the METRx™ System and the CD HORIZON® SEXTANT™ Rod Insertion Set, the lumbar interbody fusion instrumentation of the TANGENT® Impacted Posterior Instrumentation Set adds to the armamentarium of the modern spine surgeon who is interested in minimally invasive alternatives to more traditional surgical techniques.

Posterior Lumbar Interbody Fusion
The majority of surgery for disc herniation occurs in the lumbar spine. Some common problems that may accompany a herniated lumbar disc include neurological dysfunction as the nerve is "pinched" by the herniation, structural instability, and deformity and pain due to abnormal alignment. If instability occurs in association with a herniated disc, excision of the disc alone may not completely relieve the symptoms of back pain. Many patients who have spinal instability, in addition to disc pathology, may benefit from a fusion of the involved vertebral bodies in order to obtain more complete relief from their symptoms. This fusion can be accomplished at the same time as their discectomy, but until now, the surgical approach for fusing the involved vertebral levels from a posterior approach has required a significantly larger surgical dissection than that required for the discectomy alone.

With the development of minimally invasive and microsurgical techniques for treating spinal disorders, surgeons and implant manufacturers have continued to research and design new ways to perform spinal fusion surgery with minimal dissection of the surrounding soft tissues. There are two common approaches to fuse two adjacent vertebral bodies: from the front of the spine, called an Anterior Lumbar Interbody Fusion (ALIF) and from the back of the spine, called a Posterior Lumbar Interbody Fusion (PLIF).

The Posterior Lumbar Interbody Fusion technique allows surgeons to fuse two adjacent vertebrae together with an intervening bone graft from a posterior approach to the spine. The Posterior Lumbar Interbody Fusion requires that the surgeon perform a laminectomy and carefully expose the dural sac and the spinal roots at the level of the fusion, protect these structures during the removal of the disc material, and as a fusion cage or bone graft is inserted into the intervertebral disc space. Bone grafts that are placed into the intervertebral space are designed to maintain the height of the previously excised disc and produce a solid fusion between the two vertebrae as the bones grow together. This procedure is usually accomplished through a standard midline incision centered over the affected levels along the posterior aspect of the spine and requires a complete laminectomy and wide facetectomy for sufficient visualization of the intervertebral space and placement of the graft.

Minimally invasive techniques for performing the Posterior Lumbar Interbody Fusion procedure after discectomy are improving with the development of new instrumentation for graft insertion. In addition, new techniques for processing and machining allograft bone into precision wedges for insertion into the intervertebral space after discectomy has further simplified the Posterior Lumbar Interbody Fusion procedure while reducing the negative impacts of harvesting bone graft from the iliac crest of the patient. Medtronic Sofamor Danek developed the TANGENT® Impacted Posterior Instrument Set for performing the Posterior Lumbar Interbody Fusion procedure through a minimally invasive approach via bilateral hemi-laminectomies at the affected level. The advantages of the TANGENT® Instrument Set are realized by inserting a allograft cortical wedge into the intervertebral disc spaces using the Posterior Lumbar Interbody Fusion technique.

The placement of machined wedges of cortical bone in the intervertebral disc space is often also accompanied by supplemental internal fixation with pedicle screw instrumentation. The combination of these two techniques completes a 360° fusion — wherein both the anterior, middle, and posterior columns of the spine are rigidly held in place by bone grafts between the vertebral bodies and the screw and rod combination along the posterior aspect of the spine. This construct creates a rigid segment that is a favorable environment for fusion to occur in.

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It is important that you discuss the potential risks, complications, and benefits of the TANGENT® with your doctor prior to receiving treatment, and that you rely on your physician's judgment. Only your doctor can determine whether you are a suitable candidate for this treatment.