Continuous neurophysiologic monitoring to safeguard neurological function during surgery.
Intraoperative neuromonitoring (IONM) plays a critical role in reducing the risk of neurological injury during complex surgical procedures. By continuously evaluating the functional integrity of neural pathways through real-time electrophysiologic assessment, IONM enables immediate feedback to the surgical team and supports better outcomes for patients.
We employ a range of techniques including EEG, EMG, and evoked potentials (SSEP, MEP, BAEP) to provide a complete picture of neural function during surgery. This multimodal approach ensures early detection of potential risks and supports timely surgical adjustments.
All monitoring is performed under direct physician supervision, ensuring accurate interpretation of electrophysiologic signals and rapid communication with the surgical team. Our remote capabilities enable continuous neurologic oversight in both hospital-based and ambulatory settings.
Our oversight helps to detect potential neural injury, supports intraoperative decision making, and can help to improve surgical outcomes by maintaining real time communication about critical data changes.
EEG monitoring with digital analytics can be used to detect potential cerebral ischemia during vascular and tumor procedures. For spinal surgeries, evoked potential monitoring (SSEP and MEP) can be used to evaluate spinal cord integrity.
Through continuous neurophysiologic monitoring and physician-led oversight, our IONM services provide proactive protection against neurological injury during surgery — combining clinical expertise with technological precision for optimal patient safety.
