Microfluidic devices containing living human cells that simulate the physiology of human organs for drug testing and disease modeling
Organ-on-chip (OoC) technology uses microfluidic devices about the size of a USB stick to recreate the mechanical and physiological environment of human organs. These chips contain tiny channels lined with living human cells that experience the same fluid flow, mechanical forces, and chemical signals as cells in the body.
This creates a more accurate model of human biology than traditional cell cultures or animal tests, enabling better prediction of how drugs will work in humans.
Multi-organ chip platform with interconnected chambers and continuous media flow
Uses actual human cells, providing species-specific responses that animal models cannot replicate
Connect multiple organ chips to study systemic drug effects and organ-organ interactions
Built-in sensors track pH, oxygen, and cell health continuously during experiments
Faster screening with less reagent use compared to traditional methods
Experience virtual organ-chip experiments in our interactive lab
Lung-on-Chip Kidney Chip Body-on-Chip All Simulations