Spine surgery encompasses a wide range of advanced procedures designed to relieve nerve compression, stabilize the spine, correct deformity, and restore function. Depending on the condition, surgery may be performed using open, minimally invasive, or endoscopic techniques, often incorporating advanced imaging, navigation, and neuromonitoring for precision and safety. These approaches allow for effective treatment of degenerative disease, trauma, tumors, deformity, and complex revision cases while optimizing recovery and long-term outcomes.
Cervical, thoracic, and lumbar decompression involves surgically relieving pressure on spinal nerves or the spinal cord in the neck, mid-back, or lower back to reduce pain, numbness, and improve function.
Endoscopic spine surgery is a minimally invasive procedure using a small camera and instruments to treat spinal conditions, reducing tissue damage, speeding recovery, and relieving pain, nerve compression, or other spinal symptoms.
Anterior cervical discectomy and fusion (ACDF) is a surgical procedure removing a damaged cervical disc from the neck and fusing adjacent vertebrae to relieve nerve compression, reduce pain, and restore spinal stability.
Posterior cervical decompression and fusion is a surgical procedure that relieves pressure on spinal nerves or the spinal cord from the back of the neck while stabilizing the spine by fusing affected vertebrae.
Lumbar fusion techniques—TLIF, PLIF, and ALIF—stabilize the lower spine by fusing vertebrae through different approaches, relieving nerve compression, reducing pain, and restoring spinal alignment and function.
Revision spine surgery is performed to correct or improve outcomes from a previous spinal procedure, addressing persistent pain, instability, or nerve issues through careful evaluation, advanced techniques, and individualized surgical planning.
Minimally invasive and mini-open spine techniques use small incisions and specialized instruments to treat spinal conditions, reducing tissue damage, speeding recovery, and relieving pain while maintaining spinal stability and function.
Spinal stabilization for trauma and tumors involves surgical techniques to support and protect the spine after injury or tumor removal, restoring stability, preventing deformity, and preserving neurological function.
Deformity correction and sagittal balance restoration involve surgical realignment of the spine to correct abnormal curvature, improve posture, relieve pain, and restore proper spinal balance and overall function.
Facet replacement and motion-preserving technologies restore or maintain spinal joint function, relieve pain, and preserve mobility, offering alternatives to traditional fusion while supporting stability and natural spine movement.
Intraoperative navigation, imaging, and neuromonitoring use real-time technology during surgery to guide precise instrument placement, enhance safety, monitor nerve function, and improve outcomes in complex spinal and nerve procedures.
