Physical stress from stirrer-based culture damages organoids, causing variable viability and yield across batches.
In conventional impeller/shaking-based culture, real-time morphological observation is not possible and media exchange automation is difficult.
Dynamic Suspension
Impeller / Wheel / Orbital Stirring
Static Suspension (Fluid-controlled)
Pump-based fluid control · TEB technology
Organoids cultured in a static suspension environment maintain high viability and functionality without physical stress.
Organoids can be observed in real-time inside the chamber, reducing monitoring burden and the need for weekend check-ins.
Disposable culture chambers and standardized fluid control minimize batch variation and ensure consistent organoid quality.
Please share your experience with the questions below. Your insights from the field help us understand real challenges and develop better solutions for the organoid culture community.
Is it difficult to observe organoid morphology in real-time or automate media exchange in your current culture workflow?
This question concerns the lack of real-time observation and automation challenges in conventional stirrer-based 3D culture systems.
Have you experienced batch-to-batch quality variation in your organoid cultures that affected your research or production?
This question is about yield inconsistency, low viability, or reduced functionality causing delays in experiments or production.
Interested in participating in user testing or requesting a sample of the NoStir Platform?
Join us as an early research partner — your field experience will directly shape our technology development.