Developing computerized systems that interact with the nervous system to extract high quality neurophysiological data with the potential for vast improvements across medical applications where nerve pathways are located, monitored or assessed.
Our patented systems are designed to acquire accurate, reproducible neuropysiological data with unprecidented precision. Our systems integrate recent advancements in precision neurostimulation and leverage the power of AI driven data analysis using closed-loop feedback algorithms designed to acquire and interpret complex neurophysiological data sets, empowering clinicians with useful information on the structure and function of the nervous system that can vastly improve clinical and surgical decision making..
Existing methods of manual neurophysiological data acquisition are simplistic and have remained unchanged for decades. These outdated methods have profound drawbacks that limit the accuracy and reliability of the data, limiting its clinical utility.
Our patented systems utilize the power of emerging precision neurostimulation technology that has already produced incredible advancements in several existing commercially-available medical devices. This powerful technology has helped the deaf to hear with cochlear implants, brought relief from uncontrollable tremors in people suffering from Parkinson’s diseasewith deep brain stimulation, and provided sight to the blind with retinal implants. Emerging precision neurostimulation technology continues to improve and the applications for this powerful technology are continuing to expand as with our patented high-resolution nerve localization systems and neurophysiological data optimization systems. This powerful technology will be an essentail component of emerging AI-driven neurophysiological data acquistion and analysis systems which have the potential to replace existing simple,imprecise methods of acquiring and analyzing neurophysiological data that are currently being used in multiple clinical and surgical applications.
