Blog | Organ-on-a-Chip Technology
InSphero has a rich history of collaborating with researchers at ETH Zürich. The most recent example is a joint effort to develop and apply a novel Hanging Drop Organ-on-a-Chip System to study insulin release dynamics for diabetes drug discovery.
Our guest blogger, Melanie Johnson from the Technology Transfer Office at ETH Zürich, had a chance to interview Patrick Misun and Burcak Yesidag about their work, which was published in Advanced Biosystems. Here's the story.
Burcak Yesildag from InSphero and Patrick Misun from the Bio Engineering Laboratory of ETH Zürich in Basel talk about a new testing platform that will help diabetes researchers to find new drugs and to get deeper insights into underlying biological mechanisms.
Patrick: That is correct. We build platforms for testing drugs outside the body under conditions that resemble those in the living organ as closely as possible. Our goal is to obtain physiologically meaningful and reproducible data. In this particular case, we studied the insulin secretion of pancreatic microtissues over time.
Patrick: The hanging drops have proven to provide an absolutely reliable and reproducible environment for drug testing on microtissues. We place single microtissues in individual drops, where they settle at the water-air-interface at the bottom of the drop. We perfuse small volumes of liquid directly through these hanging drops to provide the tissue with nutrients and expose them to drugs. Flowing liquids inside hanging drops feature a unique flow pattern compared to flows in closed chambers. We take advantage of this specific flow pattern to obtain secretion profiles at high temporal resolution.
Patrick: This is a question for my colleague Burcak from InSphero. For this project, we have an excellent collaboration in which ETH Zürich covers the engineering part for the organ-on-chip tests, and InSphero prepares the microtissues.
Burcak: Indeed, our complementary skills come in handy. At InSphero, we prepare pancreatic microtissues from donor organs. We obtain isolated human-donor islets, which are the micro-organs in the pancreas secreting hormones such as insulin, which regulates the blood sugar level in our body. We disassemble the islets, which come in different sizes and compositions, and reassemble them into standardized three-dimensional microtissues. The more regular the sample tissue is, the more reproducible will be the outcome of experiments with these tissues.
Burcak: Our pancreatic microtissues closely mimic the structure of the original human islets and preserve their natural response to various stimuli. When exposed to a high concentration of glucose, they display a first instantaneous burst of insulin secretion. Several minutes later, a somewhat less intense but well-sustained oscillatory release of insulin follows. In the case of diabetes, these responses are impaired, and there are multiple strategies aiming at restoring healthy insulin secretion. Researchers want to observe these details at a high temporal resolution so that they can better understand the mechanisms underlying diabetes and develop compounds for its treatment. The combination of robustly functioning islet microtissues with Patrick’s hanging-drop platform provides unprecedented temporal resolution as far as we know.
Burcak: The microtissues are readily available for collaborative projects with InSphero.
Patrick: Currently, we have working platform prototypes, and we are open to collaborations with academic and industrial partners to optimize our platform. Our prototypes enable us to perform very sensitive measurements of single islets. We hope this technological advancement will help diabetes researchers to find new drugs and to get deeper insights into islet biology. In a next step, we would like to increase the experimental throughput, as this is one of the key requirements for compound testing. Also, we are further decreasing the operational complexity with the goal of making the system available for researchers across different laboratories.
If you have any additional questions for Patrick or Burcak, please post a comment below, and we'll have them get back to you!
This blog was originally published in ETH Zürich Industry News & Society News.
Cover image: Illustration of the organ-on-a-chip system that enables researchers to maintain sample tissues in hanging drops by ETH Zürich. Reprinted with permission.
Great post! Super informative.
Such a great blog! I am looking for these kinds of blogs for last many days. Thanks for sharing it with us