Spinal Surgeries made easier with real-time surgical navigation

– Dr. Satnam Singh Chhabra, Head Neuro and Spine department, Sir Gangaram Hospital, New Delhi

Dr. Satnam Singh Chhabra, Head Neuro and Spine department, Sir Gangaram Hospital, New Delhi
Dr. Satnam Singh Chhabra, Head Neuro and Spine department, Sir Gangaram Hospital, New Delhi

Traditional spinal surgeries like Laminectomy and Lumbar fusion generally involve scars with complete exposure to the patient’s anatomy which requires a high level of expertise to treat a patient’s spinal deformity. But with the recent advancements in technology, Spinal Navigation Technology has completely changed the methods of treating spine ailments. It is now used by neurosurgeons to perform delicate and complex spinal surgeries with a low level of risk involved and faster recovery. These technological advancements have made complex procedures easier for spine surgeons as now they can operate with better visualization and more accuracy than before.

Spinal Navigation Technology

Navigation System Cameras track a patient’s anatomy and instruments which produces a real-time image for the surgeon to perform the surgery. This specialized software helps the surgeon plan the details of the surgery including the number, size, and location of implants. The surgeon can see and track the position of these surgical instruments and implants in real time in relation to the patient’s accurate anatomy. Spine Navigation Technology used for complex surgeries provides faster, more precise, and less invasive spinal procedures with less radiation exposure.

Advantages of Spinal Navigation Technology

Minimally invasive surgery combined with Spinal Navigation Technology provides a less invasive, faster, and easier procedure for patients. The highly effective navigation system helps surgeons perform the most complex spine surgeries. A surgeon may require multiple x-ray images throughout the surgery to guarantee the placement of the implants, while with Spinal Navigation Technology; the need for multiple x-ray images is eliminated as the surgeon can see what is happening right on their screen. Image guidance plays a major role in making the surgeon’s job easier and saves valuable time. Besides, image guidance can play a major role in increasing a surgeon’s confidence in difficult cases, especially while performing revision surgeries where the position of the patient’s anatomy may be different from before.

Age groups benefited from this advanced technological system

Image guidance technology helps people of all age groups and can be used in all types of spinal surgeries. Spinal fusion surgeries relieving pain from injury, degenerative disk disease, spinal curvatures, or arthritis are currently the most common image-navigated surgeries. People who undergo spinal fusion surgeries will experience less pain and will experience an improvement in performing their daily chores.

How is a Navigation Assisted Surgery performed?

Before the surgery, the patient will undergo a pre-operative CT scan inside the OT. These images are then downloaded into the navigation computer to assist the surgeon. The surgeon then uses Smart Instruments to match pre-defined points on the computer to the patient’s true anatomy. This process is known as registration.

Once this process is completed, the navigation camera starts tracking the movement and position of these smart instruments in the surgical field. The real-time images of these instruments are then displayed on the model. The monitor shows the exact position of these instruments which helps in surgical precision. Potential damage to surrounding tissue and structures is out of the question because of this image-guidance technology. In spinal fusions, a model is created to plan the position, length, and diameter of pedicle screws, and then the navigation instruments are used to ensure the correct positioning of the screw implants. This procedure greatly reduces the risk involved in such surgeries.

Surgical Navigation can’t replace the skill of the surgeon but can help assist in typical complex surgeries with real-time guidance where visibility with the human eye is sometimes challenging.