A lab-ready platform
The most powerful technologies of the past 15 years have been revolutionary not only because of what they enable people to do, but also because they are easy to use.
That’s why we created our Human Emulation System that takes Organs-on-Chips technology — which has traditionally required specialized engineering knowledge — and integrates it with hardware and software apps. The system can be utilized in contemporary laboratory workflows and provides a level of automation so that researchers can run experiments repeatedly and robustly in a variety of environments.
The development of the Human Emulation System started with the creation of our first Organ-Chips in an academic lab nearly ten years ago. At the time, we knew that this technology held enormous potential to provide a better understanding of human biology and disease. But we also knew that we had to build a system around the technology so that users with different training could scale the use of Organ-Chips in their labs.
Chip-S1™ Stretchable Chip
Organ-Chips are living, micro-engineered environments that recreate the natural physiology and mechanical forces that cells experience within the human body. They recreate human biology more accurately than animal models or other cell culture methods. Our Chip-S1™ Stretchable Chip — our first commercially available chip design — can be configured to emulate different organs, including lung, liver, intestine, kidney, and brain.
The microenvironment created within each Chip-S1 includes epithelial cells in the top channel and endothelial cells in the bottom channel. The top and bottom channels are separated by a porous, flexible membrane that allows for cell-to-cell communication that is similar to those that are found in the body. These two channels are fluidically independent and users can determine the rate of flow through the channels.
Pod-1™ Portable Module
Our Pod houses the chip, supplies media, and enables compatibility with microscopes and other standard laboratory analysis equipment. The design of the Pod allows Organ-Chips to be easily transported around the lab and placed on microscopes for imaging. The Pod’s reservoirs allow users to introduce nutrient media, precisely control dosing to test drugs or other compounds, and sample chip effluent.
Zoë-CM1™ Culture Module
Our Zoë Culture Module is designed to sustain the life of cells within our Organ-Chips. It provides the dynamic flow of media and the mechanical forces that help recreate the microenvironment cells experience in vivo. The instrument automates the precise conditions needed for simultaneous cell culture of up to 12 Organ-Chips.
The culture module enables independent control the flow rate of media through the top and bottom channels of the chips, as well as stretch parameters — including frequency and amplitude. Additionally, Zoë has automated algorithms to prime the fluidic channels of Pods with media, and programming to maintain the culture microenvironment for optimal cell performance.
Orb-HM1™ Hub Module
The Orb Hub Module provides a simple solution for installing and operating the Human Emulation System within the lab environment. It delivers a mix of 5% CO2, vacuum stretch, and power from standard lab connections. It generates the 5% CO2 supply gas to Zoë by combining air with an external 100% carbon dioxide supply or from a portable CO2 canister.
Our team is developing a suite of apps that can be used to plan and execute experiments, analyze data, and foster collaboration between and among teams. This shared ecosystem of apps is also designed to help teams write, edit, and share protocols and standardize the data they create. What’s more, these apps help users visualize and interpret datasets to improve an understanding of human biology and disease.
For me, everything we do should ultimately be directed at the goal of gaining a better understanding of human health and disease. And I believe that we can only do this by designing products that can be adopted by a wide variety of users.
If you’d like more information about our technology, please write to our team at firstname.lastname@example.org.