This story is part of a series exploring human anatomy and physiology complexities. Each story in this collection showcases discoveries reshaping our understanding of the body's inner workings, ...

In this research, Emulate scientists in collaboration with scientist at Johns Hopkins University School of Medicine established the Duodenum Intestine-Chip from organoids derived from endoscopic ...

The human small intestine is an essential organ that helps us absorb nutrients and vitamins from food. It is an average of 6 meters long and is covered with millions of villi that are separated by ...

Researchers from the Organoid group (formerly the Clevers group) have improved human small intestinal organoids – miniature versions of the small intestine. This will help them to better study the ...

Now that optimized human small intestinal organoids are available, researchers can expand on what they study. For instance, researchers can use the organoids to make mutations in the DNA of the cells.

Through a collaboration between Cornell and the State University of Binghamton in February, scientists found that food grade nanoparticles may potentially have detrimental effects on the function and ...

Researchers at Utrecht University have developed a new organ-on-a-chip: a device to mimic and study kidneys and intestines in miniature format. The device is the result of a special collaboration ...

The gut microbiome is an important ecosystem of microbes that lives in each one of us, and its strength affects our overall health. However, the small intestine is an underappreciated part of the gut ...

Researchers have improved human small intestinal organoids -- miniature versions of the small intestine. This will help them to better study the functioning of the small intestine during health and ...