Summaries by Inventor Brunner, Peter
Brunner, Peter ; Demarest, Phillip ; Leuthardt, Eric ; Willie, Jon ; Xie, Tao
T-020905
— Published Date: 6/18/2025 Value Proposition: Software tool that uses a novel denoising method to remove electrical stimulation artifacts from electrophysiology data while preserving physiological signals. Technology Description Researchers at Washington University in St. Louis have developed …
Method to Perform Spectral Biopsy of Electrophysiological Brain Function for use in Monitoring and Diagnosing Neurological ConditionsBrunner, Peter ; Leuthardt, Eric
T-019651
— Value Proposition: New process used to detect/measure the intrinsic neuronal brain activity to diagnose neurological and psychiatric diseases. Technology Description Researchers at Washington University in St. Louis have developed a method called Tau-Modulation to assess intrinsic neuronal activi…
Method To Remove Brain Stimulation Artifacts in Neural SignalsBrunner, Peter ; Leuthardt, Eric ; Willie, Jon ; Xie, Tao
T-020083
— Value proposition: Method and system for removing multiple types of brain stimulation artifacts in neural signals to improve neurological diagnoses and therapies. Technology Description Researchers at Washington University in St. Louis have developed a method to remove brain stimulation artifact…
Software used to Detect Neural Oscillations in the Time-Frequency SpaceBrunner, Peter ; Cho, Hohyun
T-020025
— Technology Description Researchers at Washington University in St. Louis have developed a software method that demonstrates high precision and specificity in detecting neural oscillations in time and frequency domains. Current methods to look at identifying peaks over 1/f noise within the power s…
Optimizing Patient Treatment through Electrical Stimulation for Targeted Deep Brain StimulationAdamek, Markus ; Brunner, Peter ; Leuthardt, Eric ; Willie, Jon
T-020028
— Technology Description Researchers at Washington University in St. Louis have developed a deep brain stimulation approach that can identify optimal stimulation parameters intraoperatively, which significantly reduces the amount of time spent on adapting stimulation parameters, thus reducing costs,…
Localization Imaging Process for Improving Neurosurgical Clinical WorkflowsBrunner, Peter ; Tan, Gansheng
T-021644
— Published date: 1/16/2026 Value Proposition: Fully automatic and robust process for localization of rigid or semi-rigid Intracerebral electrodes in neurosurgical patients. Technology Description Researchers at Washington University in St. Louis have developed a fully automated, rapid imagin…
Trackable Pedicle Screws for Improving Spinal Fusion SurgeryBrunner, Peter ; Genin, Guy ; Hacker, Carl ; Leuthardt, Eric ; Lowe, Halle ; Molina, Camilo ; Moran, Daniel ; Repka, Alicia ; Sandler, Jacob
T-019941
— Published date: 9/18/2025 Value Proposition: Non-obstructing trackable pedicle screw system that streamlines the rod-shaping process for surgeons. Technology Description Researchers at Washington University in St. Louis have developed a system that uses lenticular arrays to better track pedicle…
