This advanced surgical technique is designed to treat spinal problems with minimal cuts and faster healing. By using high-precision laser and endoscopic tools, the procedure avoids large incisions, reduces blood loss, and ensures a quicker recovery. Patients benefit from less pain, shorter hospital stays, and an early return to normal life.
A minimally invasive procedure aimed at removing brain tumors safely while preserving surrounding healthy tissue. Surgeons use endoscopic equipment to access the tumor through small openings, resulting in less trauma, reduced complications, and quicker recovery for patients. It is a safer, modern alternative to traditional open brain surgery.
This technique uses very small incisions to stabilize the spine with rods, screws, or implants. Unlike traditional open surgeries, minimally invasive spinal fixation reduces muscle damage, blood loss, and pain, while speeding up the healing process. It allows patients to stand and walk much earlier, leading to faster rehabilitation.
Neuronavigation is a computer-assisted system that guides neurosurgeons with real-time imaging during surgery. It works like a GPS for the brain and spine, enabling highly accurate targeting of the affected area while protecting critical tissues. This technology greatly improves surgical precision and patient safety.
In this unique procedure, the patient remains awake during brain surgery so that doctors can closely monitor speech, movement, and other vital functions. This method allows the surgeon to safely operate near critical brain areas while avoiding damage to functions like speech or mobility. It is especially used for tumor removal and epilepsy surgeries.
Artificial intelligence and robotic systems are transforming neurosurgery by enhancing accuracy and safety. Robotics assist in delicate surgical movements, while AI tools analyze patient data, imaging, and outcomes to support decision-making. Together, they allow surgeons to perform complex operations with unprecedented precision and confidence.