The intestinal epithelium of our body consists of a myriad of elongated villi microarchitectures which increase the total surface area of the inner wall for better absorption of digested nutrients.

An international team of scientists based in the Netherlands, and in China, has found that intestinal cells can change specializations during their lives, driven by the BMP signaling pathway, an ...

To help improve understanding of how the small intestine operates in both health and disease, researchers had developed “organoids” by isolating intestinal stem cells from human biopsies. Although ...

Intestinal cells can change specializations during their lives. The BMP signaling pathway – an important communication mechanism between cells – appears to be the driver of these changes. That is wat ...

Food goes on a long, complex journey through your body before becoming poo. Each part of the digestive system plays a special role in breaking it down.

You may think of the small intestine as a smooth tube that winds its way through your abdomen. But if you were to look really closely at the inside of the intestine, you would see that it is lined ...

Our guts hold a kind of brain, known as the enteric nervous system; it is a network of neurons that extends throughout the walls of the gastrointestinal tract. This neural network can also function ...

IBS research team has identified new subsets of gut connective cells, which are crucial for lymphatic growth.The findings imply a crucial link between the physiology of intestinal environment and ...

Researchers at the Francis Crick Institute have found that the small intestine grows in response to pregnancy in mice. This partially irreversible change may help mice support a pregnancy and prepare ...