Webinar - Mastering Microphysiological Precision with Omi
Automated Fluid Control for Organ-on-a-Chip Models
Case study: How to automate long-term recirculation of cell culture media with precise flow delivery and shear stress
Discussion about the latest advancements in organ-on-a-chip technology. Discover how Fluigent’s Omi can streamline your experimental setup.
If you’re looking for an easy, automated,and precise solution for medium perfusion and recirculation that fits in an incubator and integrates with microscopy, this webinar is for you. Learn how the Omi simplifies complex organ-on-a-chip experiments, making them more accessible and efficient.
We’ll also present a case study demonstrating the Omi’s capabilities in automating long-term recirculation with precise flow control. See how it supports the development of cellular gut-on-a-chip models and endothelial cell cultures under controlled shear stress, providing a practical and effective solution for your research needs.
Don’t miss this opportunity to see how Omi can elevate your organ-on-a-chip studies. Register now!
Agenda:
- Introduction and Latest Developments: Overview of recent advancements and current challenges in organ-on-a-chip technology.
- Simplifying Your Setup with the Omi: Features, benefits, protocols (Perfusion, recirculation, injection, and sampling), and its precision.
- Case Study – Long-Term Recirculation: How the Omi automates medium recirculation with precise flow control, featuring examples of cellular gut-on-a-chip models and endothelial cell culture.
Discover Omi, Automated Organ-on-chip platform
Omi is an automated platform that helps reproduce the microphysiological behavior of organs inside microfluidic chips. It is compatible any type of chips to sustain different cell culture types or organ on chip models (Gut, Skin…)
Endothelial Cell Culture Under Shear Stress
Reproduce precise shear stress conditions of blood vessels with endothelial cells-on-chip using the Omi.
HUVEC after 7 days of culture media recirculation with Omi
Gut-on-chip model development
Achieve optimal flow control and sustained culture conditions, enhancing cell differentiation, nutrient delivery, and intestinal barrier function to accurately replicate the human intestine.
Caco2 cells after 7 days of culture medium recirculation with Omi
WEBINAR: An one-of-a-kind Organ-on-chip platform
Read more- Microfluidic Application Notes
Long-term fluid recirculation system for Organ-on-a-Chip applications
Read more - Support & Tools
Shear Stress Calculator
Read more - Expert Reviews: Basics of Microfluidics
Why is a controlled shear-stress a key parameter of your microfluidic experiments?
Read more - Microfluidic Application Notes
Development of a human gut-on-chip to assess the effect of shear stress on intestinal functions
Read more
