Published date: 3/3/2026
Value Proposition: Non-invasive platform that can increase cognitive function in humans.
Technology Description
Researchers at Washington University in St. Louis have developed a system that enables near- real-time control of human brain activity using non-invasive transcranial electrical current stimulation (tECS). The invention uses a computational brain modeling method to allow for optimal control of brain activity that is explicitly linked to specific cognitive behaviors, including manipulation of large-scale brain networks. In contrast to existing tECS systems, this method combines a hardware software solution which allows for both pre-programmed and responsive stimulation and low-latency delivery of tCES to the human scalp, thus allowing for closed loop stimulation designs.
Stage of Research
Proposed 60 patient Trial
Applications
-
Intervention for individuals with neurological and mental health disorders associated with cognitive impairment
-
Improve higher cognitive function in humans
-
Framework can be used to conduct neurostimulation
Key Advantages
-
Enhances attention/focus caused by neuro/mental health disorders and cognitive impairment
-
Makes second-to-second determination on the appropriate stimulation current to be delivered
-
Allows for both pre-programed and responsive stimulation
Patents
Patent application filed
Related Web Links – Shinung Ching profile; Ching lab
