Revolutionary Organoid Intelligence Meets Integrated Analytics
Democratizing human-relevant drug discovery through intelligent organoid analytics that empower researchers worldwide.
Powered by OrganoidOS
Our cloud based organoid intelligence system captures and processes organoid
functional data, learns biological computational patterns, and integrates
multi-modal signals to enable advanced organoid computer
interfaces.
Three Strategic Missions
Delivering human-relevant drug discovery through intelligent organoid analytics across disease modeling, neuroscience innovation, and biological computing.
Disease Modeling Excellence
Accelerate therapeutic breakthroughs with AI-powered organoid analytics ensuring reproducible, regulatory-ready disease models for immediate commercial impact.
Neuroscience Innovation
Unlock human brain function mysteries through scalable, standardized brain organoid research platforms for neurological discovery and cognitive modeling.
Biological Computing Frontier
Pioneer energy-efficient biocomputing by developing organoid intelligence platforms that bridge biology and computation for sustainable paradigms.
Our Intelligence Engine
Uniting organoid intelligence with multi-modal systems to map new interfaces, applications, and computational paradigms in organoid computer interface development.
OrganoSim™
Advanced organoid simulation platform that enables researchers to model, predict, and optimize organoid behavior before physical implementation.
Closing The Innovation Gap
Enabling organoid-predictive, advanced organoid intelligence development
OrganoLink™
Revolutionary plug-and-play bio-digital interface technology that enables seamless communication between organoid systems and digital infrastructure.
Organoid Intelligence is Emerging
Advanced organoid technologies and computational biology are enabling intelligent biological interfaces that can process information and respond to environmental stimuli like living computers
However, so far there are limited standardized platforms for organoid computer interfaces that have been systematically validated and optimized for computational biology applications.
Introducing OrganoidOS®
We built OrganoidOS, our advanced organoid intelligence platform, to decode biological intelligence in organoid systems. It enables organoid computer interfaces, novel biotechnology applications, and next-generation computational biology.
Breaking Research
Stay at the forefront of organoid intelligence with the latest discoveries and breakthroughs from our research community and global scientific collaborations.
Distinct microRNA signatures define sporadic PSP-RS and PD in patient-derived midbrain organoids
Progressive supranuclear Palsy–Richardson syndrome (PSP-RS) is a rare, rapidly progressive tauopathy often misdiagnosed as Parkinson's disease due to overlapping clinical features and the lack of reliable molecular biomarkers.
Generation of Individualized, Standardized, and Electrically Synchronized Human Midbrain Organoids
Organoids allow to model healthy and diseased human tissues and have applications in developmental biology, drug discovery, and cell therapy. Traditionally cultured in immersion/suspension, organoids face issues like lack of standardization.
Two roads diverged: Pathways toward harnessing intelligence in neural cell cultures
Interest in using in vitro neural cell cultures embodied within structured information landscapes has rapidly grown. Whether for biomedical, basic science, or information processing and intelligence applications, these systems hold significant potential.
Frequently Asked Questions
Get answers about OrganoBit's data intelligence cloud platform and how we're advancing organoid intelligence research
Still have questions? Browse our complete FAQ or chat with Oxy, our AI assistant.