iPSC-Derived Products
Our portfolio combines cutting-edge stem cell biology with scalable and reproducible differentiation platforms, enabling the generation of highly functional 2D and 3D cellular systems.
Cerebral Organoids
Our iPSC-derived cerebral organoids replicate key features of early human brain development, including cellular diversity, regional organization, and emerging neural network activity.
Variants: Cortical, Choroid Plexus Organoids, Fused Assembloids
Intestinal Organoids
Our intestinal organoids faithfully reproduce the architecture and function of the human gut epithelium, including diverse cell populations and barrier properties.
Ideally suited for disease modeling, drug absorption and metabolism studies, and host–microbiome interaction research.
Variants: iPSC, Mid-Hind Gut, Intestine Organoids
Enteric Neurons
Our iPSC-derived enteric neurons provide a reliable and scalable model of the human enteric nervous system. Particularly valuable for studying gut–brain axis interactions and neurogastrointestinal disorders.
Currently Optimizing
We are also optimizing protocols to generate:
- Lung Organoids — capturing essential features of airway and alveolar tissues
- Endothelial Cells — exhibiting key vascular functions, including barrier integrity, angiogenic capacity, and inflammatory responsiveness
- Astrocytes — displaying mature functional characteristics critical for supporting neuronal health and synaptic activity, well-suited for modeling neuroinflammation and neurodegenerative diseases
From complex organoids to specialized cell types, our products are designed to closely mimic human physiology, providing more predictive and translationally relevant data than conventional models. This allows our partners to accelerate research timelines, improve decision-making in preclinical development, and reduce reliance on animal testing.