3D tissue models derived from stem cells that self-organize to replicate the structure and function of human organs
Organoids are miniature, simplified versions of organs produced in the lab from stem cells. These 3D structures self-organize to mimic the architecture and cellular complexity of real organs, making them powerful tools for disease modeling, drug testing, and personalized medicine.
Unlike traditional 2D cell cultures, organoids capture the three-dimensional organization and cell-cell interactions that are crucial for understanding how organs function and respond to treatments.
Model neurological diseases and drug effects
Study gut diseases and drug absorption
Test drug metabolism and toxicity
Model nephrotoxicity and kidney disease
Personalized cancer drug screening
Study eye diseases and regeneration
Organoids derived from human cells provide species-specific responses that animal models cannot replicate. Patient-derived organoids enable personalized medicine by testing treatments on tissue that shares the patient's exact genetic makeup. This approach has shown up to 89% accuracy in predicting patient responses to cancer treatments.
Build and grow virtual organoids in our interactive lab
Organoid Builder Organoid Medicine All Simulations