Stem Cell Meets Neural Network
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Advancing Stem cell therapies to treat Epilepsy.
Cortex is a research lab investigating the use of neural stem cells to treat epilepsy. We develop animal models of epilepsy to test transplanting stem cells into the brain. Our goals are to suppress seizures, repair damaged brain regions, and understand how stem cells integrate into epileptic neural circuits.
Our research integrates in vivo and in silico techniques to systematically investigate stem cell transplantation, differentiation, migration, and integration into epileptic neural circuits.
Our advanced machine learning platform revolutionizes stem cell research by automating the complex task of image analysis.We combine state-of-the-art computer vision with deep neural networks, we transform hours of manual microscopy assessment into rapid, precise, and standardized analysis.
Meet Aurevia: predict seizure 15 mins before they strike.
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Aurevia™
Aurevia continuously monitors brainwave patterns to detect early signs of seizure activity, giving you and your loved ones timely alerts so you can focus on what matters most.
Aurevia is an innovative predictive device that provides early alerts of seizure activity, giving individuals and families peace of mind and the time to take control before a seizure strikes.
Utilizing advanced neural monitoring, Aurevia detects subtle shifts in brainwave patterns, identifying potential seizures long before they occur. With early warnings, users can take precautionary actions, safeguarding against unexpected disruptions.
Tailored specifically for each individual, Aurevia’s smart analytics continuously adapt to each user’s unique neural patterns, ensuring precise and meaningful alerts. Real-time notifications are sent directly to the Aurevia app, empowering users and their support networks to respond swiftly.
Technology
Imagine a life where peace of mind is part of every day. With Aurevia, our state-of-the-art predictive device, you’ll know before a seizure strikes, giving you the time to prepare and live confidently.
Aurevia fits effortlessly into your day with a sleek, wearable design that’s as comfortable as it is powerful. Enjoy continuous protection without interruptions.
Epilepsy affects over 65 million people worldwide, many of whom don't respond to conventional treatments.
Nearly one-third of epilepsy patients don't respond to conventional medications, leaving them with limited treatment options. Our pioneering research explores how neural stem cell transplantation can provide new hope for drug-resistant epilepsy.
Beyond merely suppressing symptoms, our research focuses on actively repairing compromised brain tissue. Neural stem cells have remarkable regenerative potential, capable of replacing damaged neurons and restoring disrupted circuits. Through precise transplantation techniques, we're working to rebuild and rehabilitate the specific brain regions where seizures originate, offering the possibility of long-term recovery.
Understanding how transplanted stem cells integrate into existing brain circuits is crucial for developing effective therapies. Our cutting-edge research tracks how these cells migrate, differentiate, and form new connections within epileptic neural networks. Using advanced imaging and electrophysiology techniques, we're uncovering the mechanisms that enable successful stem cell integration and therapeutic effectiveness.
While current epilepsy treatments focus primarily on controlling seizures, our goal is to develop transformative therapies that address the underlying causes of epilepsy. By combining neural stem cell therapy with deep insights into brain circuit repair, we're working toward treatments that don't just suppress symptoms but potentially cure epilepsy through permanent neural circuit restoration. This approach represents a paradigm shift from daily medication to lasting therapeutic solutions.
