CellCircuit Platform

CellCircuit is building an AI-native discovery platform uses engineered living 3D human biology to accelerate the discovery of better medicines for patients.

From living biology to discovery intelligence.

01Live 3D Human Biology

Engineering living human biology

Multicellular 3D systems, including organoids and spheroids, engineered with physiologically relevant biochemical and biomechanical microenvironments across CNS, Neuro-Oncology, and PNS indications.

02Scaled Model Development

From one model to thousands

Automated biological manufacturing enables the generation of large-scale, reproducible 3D human biology systems, creating the biological foundation required for AI-native therapeutic discovery.

03Pheno-Multiomics

Connecting phenotype to molecular biology

Spatial and spatiotemporal phenomics are integrated with genomics, transcriptomics, proteomics, metabolomics, lipidomics, and phosphoproteomics to create a structured, high-resolution view of human cell state and disease biology.

04AI-Native Discovery Engine

Turning biology into discovery intelligence

Compounding phenomic and multiomic datasets continuously strengthen an AI-native discovery engine that identifies disease mechanisms, prioritizes therapeutic opportunities, and uncovers biological signals at a scale impossible with conventional discovery approaches.

CellCircuit · MODEL VIEW · cross-section
Scaled Automation

Built for throughput.
Engineered for consistency.

01
Scalable Model GenerationAutomated workflows enable the reproducible generation of large-scale 3D human biology systems, reducing variability and supporting discovery programs across multiple disease areas.
02
High-Throughput ProcessingIntegrated imaging, liquid handling, and analysis pipelines enable rapid, standardised processing of hundreds to thousands of biological samples in parallel.
03
Reproducible by DesignAutomation minimises manual variability and standardises biological workflows, ensuring comparable datasets across experiments, programs, and time points.