Advances in medical technology are driving a new focus on precision and patient safety in surgical procedures, particularly in the complex field of neurosurgery. A new system, spinal neuronavigation, is gaining attention for its potential to improve accuracy and reduce errors during spinal surgeries.
Improving Surgical Precision
Spinal neuronavigation functions much like a GPS system, according to Wawan Mulyawan, a neurosurgery specialist at Jakarta Hospital in Indonesia. The technology maps the nerve area in detail before surgery, helping surgeons determine the safest and most precise route. This allows for smaller incisions and potentially faster patient recovery times. The system was discussed in mid-December 2025 at Jakarta Hospital.
The spine’s complex anatomy, with its rotations and curves, presents a significant challenge for surgeons. Traditional landmarks can be difficult to identify. Neuronavigation assists in accurately positioning pedicle screws – avoiding the risk of nerve damage or injury to major blood vessels. It also aids in restoring the body’s natural balance.
Addressing Specific Spinal Conditions
Spinal surgeries for conditions like Herniated Nucleus Pulposus (HNP) and spinal stenosis require exceptional accuracy due to the limited surgical space and proximity to vital nerves. Dr. Dimas Rahman Setiawan, a neurosurgery specialist, explained that the technology helps determine how much bone to remove without compromising spinal stability. He stated the technology’s effectiveness approaches 100% due to its precision.
Neuronavigation also minimizes the risk of accidental injuries and bleeding by tracking surgical instruments with sub-millimeter accuracy in real-time. The system provides a three-dimensional, real-time map of the patient’s anatomy, allowing surgeons to “see” structures without extensive tissue dissection.
Treating Vertebral Compression Fractures
Dr. Danu Rolian, a neurosurgery specialist, discussed the use of neuronavigation in treating vertebral compression fractures, often caused by osteoporosis or trauma. Kyphoplasty, a minimally invasive procedure to strengthen collapsed vertebrae, can carry a risk of cement leakage. Neuronavigation improves the accuracy of needle placement during kyphoplasty, potentially preventing permanent spinal curvature (kyphosis).
Budi Sampurna, Chair of the Jakarta Hospital Foundation, emphasized that adopting this technology is a commitment to high patient safety standards.
Frequently Asked Questions
What is spinal neuronavigation?
Spinal neuronavigation is a system used in spinal surgery designed to improve accuracy and reduce errors. It functions like a GPS, mapping the nerve area in detail before the procedure.
What are the benefits of using this technology?
The technology allows for smaller incisions, a potentially faster recovery process, and reduces the risk of complications such as nerve damage or injury to blood vessels.
What conditions can be treated with the help of spinal neuronavigation?
The technology can assist in surgeries for conditions like Herniated Nucleus Pulposus (HNP), spinal stenosis, and vertebral compression fractures.
As hospitals continue to adopt advanced technologies like spinal neuronavigation, it will be interesting to see how these innovations impact long-term patient outcomes and the evolution of surgical techniques.
