If you need spine surgery and are exploring your options, you may have come across providers who offer laser spine surgery. Some spine centers promote it heavily, and it is easy to assume that lasers represent a more advanced or cutting-edge approach to spine care. While it may seem intuitive that “laser” = “precise,” the usefulness of lasers in spine surgery is quite limited.
At DISC Sports & Spine Center, we encourage you to take careful look before making this important decision.
“Patients often hear the word ‘laser’ and assume it means more precise, less invasive, or more advanced. In reality, spine surgery is not about the buzzword attached to the instrument. It is about visualization, accuracy, and actually treating the source of the patient’s pain,” said Dr. Hossein Aziz, a board-certified spine surgeon at DISC Tarzana. “This is where endoscopic spine surgery is so powerful. With endoscopy, I can use a very small incision, place a camera directly at the area of pathology, and see the compressed nerve or disc problem in real time. The advantage is not that it sounds high tech. The advantage is that it allows targeted, precise treatment with minimal disruption to the surrounding muscles, bone, and normal anatomy.”
Surgeons use several approaches to operate on the spine. Understanding the differences is important when you are weighing your treatment options.
Traditional, or open, spine surgery:
This is the approach most people picture when they think of surgery. The surgeon makes a larger incision and carefully moves muscle and soft tissue aside to directly expose the spine. This provides a wide field of view and direct access to complex anatomy. Open surgery is often necessary for extensive reconstruction or deformity correction.
Minimally invasive spine surgery:
Minimally invasive techniques use smaller incisions and specialized instruments to reach the spine with far less disruption to surrounding tissue. Instead of cutting through muscle, the surgeon works through narrow pathways, often using tubular retractors, an operating microscope, and fluoroscopy (a real-time X-ray). This approach allows for precise treatment while reducing blood loss, postoperative pain, and recovery time compared with open surgery.
Laser surgery:
A laser is not a surgical approach in itself. It is a tool that delivers focused light energy to heat and vaporize soft tissue. In select situations, a laser may be used to shrink a small amount of disc material (disc herniation, when inner disc material presses on a nerve) or to ablate tiny nerve fibers in the facet joints (small stabilizing joints in the spine).
Lasers have a narrow but specific role in spine procedures. In the right setting, they can be used to treat selected soft-tissue problems. The key is understanding exactly what they can—and cannot—do.
There are three situations where lasers have a legitimate place:
These applications share an important theme: lasers act on small volumes of soft tissue in highly selected scenarios. They do not address the larger structural problems that often drive spine pain. This means that if your pain is caused by bone spurs, spinal instability, or the bony narrowing of the spinal canal that causes stenosis, a laser simply cannot fix the problem at its source. For those conditions, the surgeon needs to use non-laser instruments that can physically remove or stabilize bone and structure.
“A laser can shrink or burn small amounts of soft tissue, but most spine conditions are structural problems. If you cannot remove bone, decompress a nerve, or stabilize the spine, you are not addressing the root cause. Newer technological advances such as robotic spine surgery allow surgeons to address these structural issues with minimally invasive surgeries that don’t necessarily require the use of lasers,” explained Dr. Payam Moazzaz, a board-certified orthopedic spine surgeon at DISC Carlsbad.
You probably know someone who has had their vision corrected with laser surgery. Eye surgery is one of the areas in which lasers are very useful. But when it comes to your spine, lasers are generally not as effective as the other types of surgery. For example, a laser may help get rid of disc material from a herniated disc, but performing a minimally invasive procedure called a microdiscectomy may be a better way of doing it.
There are many spine conditions that lasers are unable to treat. Degenerative disc disease, a condition in which the spongy discs in your spine wear down over time, can't be repaired with a laser. If you have bone spurs related to arthritis, deformity of your spine, or instability of your spine, a minimally invasive spine surgery may be necessary if you are looking for a surgical solution.
Keep in mind, also, that laser spine surgery still requires an incision. People often think that lasers can be used to "zap" the problem from the outside, but in fact, a small incision is needed to insert the probe with the laser.
Because of the limited role of lasers in spine surgery, a spine surgeon may use a laser for as little as two minutes out of two-hour procedure and still refer to the entire operation as "laser spine surgery." The rest of the operation is done using traditional instruments.
For these reasons, we don't use lasers at DISC. Instead, we choose to focus our efforts on minimally and non-invasive techniques that help you get back to an active and pain-free life. We strive to find the least invasive solution that will deliver the best results for you.
At first glance, laser spine surgery and minimally invasive spine surgery can sound similar. Both are often described as modern, less invasive options that use small incisions and aim to reduce recovery time. The reality is more nuanced.
Minimally invasive spine surgery is a well-established surgical approach. The surgeon works through small incisions using specialized instruments, often guided by an operating microscope or an endoscopic camera (a small camera that provides high-definition visualization inside the body). This allows precise, controlled treatment of the structures causing pain.
Laser spine surgery, by contrast, is not a distinct surgical approach. It refers to the use of a laser as a tool within a procedure. A laser can shrink or vaporize small amounts of soft tissue, but it does not provide visualization or allow the same level of control around delicate nerve structures.
Indeed, a laser may be used as part of minimally invasive surgery. On the other hand, if the laser is too large to be used through a small incision, then laser surgery may be performed via the traditional open approach with larger incisions and direct visualization. Thus, recovery after minimally invasive spine surgery is typically similar to, or faster than, laser-based procedures.
To reiterate, minimally invasive spine surgery techniques can treat a wide range of conditions, including herniated discs, spinal stenosis (narrowing of the spinal canal), and bone spurs. Laser-based techniques are limited to select soft-tissue applications and cannot address many of the structural problems that commonly cause back and neck pain.
Many patients imagine “laser spine surgery” as a high-tech procedure performed through a tiny incision with a camera. That description actually fits endoscopic spine surgery.
Endoscopic surgery uses a small camera (endoscope) inserted through an incision that is often less than 1 centimeter. The surgeon views the spine in high definition and uses specialized instruments to precisely remove the source of nerve compression.
A laser, by contrast, is only a tool. It delivers focused heat energy but does not provide visualization or allow the surgeon to manipulate tissue with the same level of control. The incision often needs to be bigger to accommodate the laser.
This difference determines what each can treat. Endoscopic spine surgery can address herniated discs (disc material pressing on a nerve), spinal stenosis (narrowing of the spinal canal), and certain bone spurs. Laser-based techniques are limited to select soft-tissue applications and cannot reliably treat these structural problems.
If you are looking for the type of precise, minimally invasive surgery often associated with “laser” marketing, endoscopic spine surgery more accurately reflects that reality, while offering greater visibility, control, and clinical versatility.
“What patients are usually looking for when they ask about laser surgery is a minimally invasive solution with a fast recovery. Today, that is best achieved with endoscopic and other minimally invasive techniques—not with a laser,” said Dr. Milad Alam, a board-certified orthopedic spine surgeon at DISC Surgery Center at Palm Beach.
Laser-based techniques have a limited role in spine care. Most common spine conditions require approaches that allow direct visualization and precise removal or stabilization of the underlying problem.
For a symptomatic herniated disc (when disc material presses on a nerve), microdiscectomy or endoscopic discectomy remains the standard of care. These techniques allow the surgeon to directly see and remove the compressive disc material. A laser may shrink a small portion of the disc, but it does not offer the same level of completeness or control.
Spinal stenosis (narrowing of the spinal canal) often involves bone, ligament thickening, or both. Treatment typically requires laminectomy or endoscopic decompression to physically remove the structures compressing the nerves. Laser energy does not provide a reliable way to address these bony and structural elements.
Degenerative disc disease involves progressive breakdown of the disc (the cushion between vertebrae). A laser cannot restore disc structure or function. Treatment ranges from conservative care to artificial disc replacement (a motion-preserving implant) or spinal fusion, depending on severity and symptoms.
Bone spurs (bony overgrowths often related to arthritis) must be mechanically removed to relieve nerve compression. While lasers can ablate (destroy) soft tissue, they are largely ineffective for removing bone in this context.
When one vertebra shifts out of position relative to another (spondylolisthesis), the problem is mechanical instability. Treatment requires stabilization. This is most commonly achieved with spinal fusion, and in select cases, artificial disc replacement. Laser-based techniques cannot address instability.
Not every center that mentions lasers is misleading, but some rely on marketing that does not reflect how spine care actually works. Watch for these warning signs:
When it comes to finding a spine surgeon, we believe that knowledge is key. Take your time and do your research. You'll find that surgeons have different philosophies and ways of practicing. Ask the following questions:
You should always feel confident with your decision and comfortable with your provider. Don't leave any questions or concerns unanswered.
At DISC Sports & Spine Center, you'll discover that our board-certified and fellowship-trained spine surgeons are always honest and straightforward in our approach. We are always happy to meet and discuss your treatment options. We feel confident that you'll see what makes us different.
In carefully selected cases, it can be safe. The larger issue is not safety alone, but whether it is the right procedure for your condition. Many spine problems require treatments that lasers cannot provide.
Often, no. Many laser-based procedures are considered investigational or not medically necessary by insurers, which means you may face significant out-of-pocket costs.
It depends on the size of the incision and the degree of tissue disruption. Bigger incisions and more disruptive approaches usually require longer recovery periods.
Minimally invasive spine surgery is a comprehensive surgical approach that allows direct visualization and precise treatment. A laser is simply a tool with limited applications and does not replace standard surgical techniques.
No. At DISC, the focus is on evidence-based treatments, including minimally invasive and endoscopic techniques that address the full range of spine conditions.
It depends on your diagnosis. In many cases, minimally invasive or endoscopic spine surgery provides a more complete and reliable solution. Conservative treatments may also be appropriate and surgery of any kind may not be needed.