‘Organ chip’ project to test how chemicals affect the body

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TINY replicas of organs, shrunk down to fit onto computer chips the size of AA batteries, could help doctors and scientists learn about how certain foods, chemicals and dietary supplements affect the human body, the Food and Drug Administration (FDA) says.
These “organ chips” have been in the works since 2012, the FDA said today (April 11) in a post on its blog. Other institutions, including the National Institutes of Health (NIH) and the Defense Advanced Research Projects Agency (DARPA), are also involved in the project.
Now, researchers at the FDA’s Center for Food Safety and Applied Nutrition are studying the chips, which are made by a company called Emulate Inc., according to the post.
Initially, researchers thought that the chips would be particularly helpful in research into how well drugs work in certain organs, Suzanne Fitzpatrick, senior adviser for toxicology in the FDA’s Center for Food Safety and Applied Nutrition, wrote in the blog post. But the FDA also hopes to use the organ chips to study the safety of foods, cosmetics and dietary supplements, the agency said.
The information from these chips — which could show “how the body processes an ingredient in a dietary supplement or a chemical in a cosmetic, and how a toxin or a combination of toxins affects cells” — could help researchers assess whether the compounds pose a risk to human health, Fitzpatrick wrote.
Each chip will represent one organ, according to the FDA, and the agency will begin its research using the “liver chip.” In the future, the FDA and Emulate hope to develop kidney chips, lung chips and intestine chips. Because the chips are translucent, researchers will be able to observe what’s going on inside them.
The chips are made from a flexible polymer material that’s filled with tiny channels, according to the FDA. These channels are lined with living human cells from the organ being studied. For example, the liver chip contains liver cells. Each chip is designed to mimic the natural physiology of the organ. In other words, the tiny channels in the liver chip could replicate blood flowing through the liver, and a lung chip would be designed to replicate breathing motions and muscle contractions, according to Emulate. The chips can also be placed into a large instrument that helps re-create the environment inside the human body, according to Emulate.