What is Lateral Access Surgery?
Lateral access is a safe and reproducible means of addressing certain spine disorders with an approach from the side of the patient, as opposed to an approach from the back (posterior) or the front (anterior). A lateral (side) approach is made safe with the use of nerve monitoring technology (NeuroVision® from NuVasive,® Inc.).
A New Avenue for Treatment
The XLIF® (eXtreme Lateral Interbody Fusion) procedure provides relief to patients who cannot tolerate a larger, open back surgery because of the increased risks of longer anesthesia time, blood loss, hospitalization, and recovery. It is also a less invasive alternative for patients who have lived with back or leg pain through years of various failed treatments, including steroid injections, physical therapy, and pain medication.
The XLIF® procedure includes the use of NeuroVision®, a technologically advanced nerve monitoring system (EMG), allows the surgeon to have accurate, reproducible, real-time feedback about nerve health, location, and function, reducing the incidence of nerve injury during surgery. Read more about NeuroVision and the importance of nerve monitoring. »
Spine and Back Injuries in the United States
Some of the more common causes of back pain originate in the muscles and/or nerves.
Back pain can be the result of a sudden, awkward movement, strained back muscles and ligaments, or lifting heavy objects or using improper form when lifting objects.
Pressure or impingement of nerve roots in the spinal canal can be caused by herniated discs, arthritic conditions, bone spurs, or displacement of vertebrae, and can result in pain throughout all areas of the back, and often into the extremities.
Turning Spine Surgery on Its Side
When performing XLIF back surgery, your surgeon will approach your spine from the side of your body. You will be positioned on your side on the surgical table and two small incisions will be made. One of the incisions will be made on your side – this is the incision from which most of the surgery will be performed. Another incision will be made slightly behind the first, toward your back.
After you have been positioned, an x-ray will be taken to help your doctor precisely locate the operative space. Next, your skin will be marked at the site where the two small incisions will be made. Your surgeon will use the latest instrumentation to access the spine in a minimally disruptive manner. Disc preparation is the next step. This is done by removing the disc tissue, an action which allows the bones to be fused together. Several x-rays will be taken during this stage to ensure the preparation is correct. Once the disc has been prepared, the surgeon will then place a stabilizing implant into the space to restore the disc height and enable the spine to once again support necessary loads. Once in position, a final x-ray will be taken to confirm correct implant placement. In the event that further stabilization is necessary, the surgeon may choose to insert additional screws, rods, or plates into the vertebrae.
As we age, our intervertebral discs lose water content and become less able to hold the loads applied to them. This aging process is normal, but in some, it can cause back or leg symptoms due to loss of disc height and impingement of nerves. Many people suffer from a compromised quality of life due to disc degeneration. Spinal surgery can reduce motion between the vertebrae, adjust alignment, and restore proper disc height, alleviating pain. During the procedure, the surgeon removes most of the disc between the two vertebrae that are to be stabilized and implants a spacer to restore correct spinal alignment. The surgeon also implants bone-forming cells that bridge the space between the vertebrae and allow the bone to grow together. Increased stability and restoration of disc height often result in significant pain relief.
Spondylolisthesis is a condition where one vertebra has slipped forward over another due to degeneration of the intervertebral disc, resulting in instability. This misalignment can cause impingement of the nerves and/or fatigue of the back muscles. Spinal restoration surgery is done to reduce motion between the vertebrae, correct alignment, and restore disc height.
During the procedure, the surgeon removes most of the disc between the two bones that are to be stabilized and implants a spacer to restore correct spinal alignment. The surgeon also implants bone-forming cells that bridge the space between the vertebrae and allow the bone to grow together. Increased stability and restoration of disc height often result in significant pain relief.
Degenerative scoliosis is a medical condition where a right-left curvature of the spine develops, due to degeneration of the disc. This misalignment of the spine can cause back and/or leg pain, due to muscle fatigue and nerve impingement. Patients suffering from scoliosis often undergo back surgery to restore proper alignment and disc height.
During the procedure, the surgeon removes most of the disc between the two or more vertebrae that are to be stabilized and implants a spacer to restore correct spinal alignment. The surgeon also implants bone-forming cells that bridge the space between the vertebrae and allow the bone to grow together. Increased stability and restoration of alignment often result in significant pain relief.
Due to advances in medical technology, patients suffering from pain due to degenerative conditions now have more options than ever before. Each option has its own set of risks and benefits. Your doctor may first attempt to address your problem non-surgically; however if that does not relieve your pain, surgery may be suggested.
Once your doctor has recommended spine surgery, the next step is deciding which surgical procedure is appropriate for you. Generally speaking, each procedure is defined by the “approach,” or the way in which the surgeon accesses the spine.
Anterior Lumbar Interbody Fusion (ALIF): In this procedure, the spine is approached from the front of the body. This approach spares the back from trauma but requires delicate manipulation of the major blood vessels in front of the spine.
Posterior Lumbar Interbody Fusion (PLIF): This procedure is performed through the middle back, which allows direct access to the area being treated. The downside is that this approach also requires significant disruption to the muscles, bones, and ligaments of the back, which can lead to pain and desensitization after surgery.
Transforaminal Lumbar Interbody Fusion (TLIF): This approach is similar to PLIF, the difference being that only one side of the back is accessed and affected. Like PLIF, significant disruption to the muscles, bones, and ligaments of the back can occur – although limited to one side of the back.
Traditionally, both the PLIF and TLIF approaches require significant muscle, bone, and ligament dissection and/or disruption, which can sometimes lead to pain and desensitization of the back muscles after surgery.
Thoracotomy: This procedure approaches the thoracic spine from the side of the rib cage requiring a large incision and deflation of the lung.
The XLIF procedure does not require entry through sensitive back muscles, bones, or ligaments, resulting in less postoperative pain. It also allows for complete disc removal and implant insertion, compared with approaches from the back. When compared to ALIF, where the surgeon enters from the front, the XLIF procedure offers the benefit of reducing the risk of vascular injury during the procedure.
|70-90 minutes||2-4 hours|
|<100 cc||100-200 cc|
Patient Recovery (ambulatory)
|7-12 hours||12 hours|
|23 hours||1-2 days|
Is XLIF Right for You?
Once your physician has concluded that spine surgery is appropriate for you, the best approach for your condition will then be recommended. The XLIF procedure may be right you if you require surgery at one or more levels above the L5 vertebra.
Some candidates for the XLIF procedure include those:
Despite its advantages, your physician may decide that the XLIF procedure is not the most appropriate approach for you. The XLIF procedure is not recommended for the following patients:
Why Your Surgeon Uses NeuroVision® Nerve Monitoring
Protecting the nerves associated with your spinal column
During spine surgery, it is important to protect the nerves associated with your spinal column. These nerves carry messages to and from your brain and your organs and limbs, aiding them with proper movement and sensation.
The NeuroVision Nerve Monitoring System provides real-time, precise, and reliable feedback to ensure your nerve safety. By using this unique and advanced technology, your surgeon is provided with intraoperative information about your nerves, assisting with safe implant placement and surgical technique during your minimally invasive spine procedure.
The NeuroVision System has been used successfully in over 70,000 spinal surgeries. With the minimally invasive XLIF® approach, and the safety afforded by this nerve monitoring system, you can experience a faster recovery from back surgery and a quicker return to your normal lifestyle.