Replicating human brain Electrical function in vitro
to create high-capacity solutions
for finding cures for brain dysfunction.
Enhance Drug Discovery and Safety with Comprehensive Functional Human Brain Models
We reveal drug effects on human brain function, that can not be detected by conventional approaches.
We use microelectrode array (MEA) technology in 96-well plates to record both spikes and LFPs (“brain wave activity”) from human brain cells that we produce.
As in the human brain, our in vitro brain cells can generate diverse patterns of activity, including spikes, bursts, network bursts, and LFPs with oscillations across various frequency domains.
We strive to create a future where the effects of every drug on human brain function are thoroughly understood before any human treatment.
Our Mission
We develop and apply in vitro discovery and testing platforms with human brain cells replicating human brain functionality.
Better decisions by knowing
how targets, lead compounds and drug candidates modulate replicated human brain functionality.
By working with us, we reveal how your targets, lead compounds and drug candidates impact the full spectrum of human brain function, providing insights beyond classical spike recordings alone.
Schedule a meeting with us to see our data demonstrating how assessing LFPs can reveal drug effects on human brain function that may be missed by conventional approaches.
Target discovery and validation
Discovery new targets causing clinical neurophysiological phenotypes in vitro
Drug discovery and development
Identify the most efficient and potent
lead compound
All human experiences—whether perceived, felt, remembered, or dreamt—are encoded by electrical signals produced by brain cells.
Brain electrical signals include both spikes and local field potentials with oscillations.
We are a forward-thinking company, committed to advancing the use of local field potentials and oscillatory signals in human brain in vitro assays as a solution for research, drug discovery, and the development of more effective treatments for brain disorders.