Advancing intestinal organoid technology to decipher nano-intestine interactions and treat intestinal disease

Abstract: With research burgeoning in nanoscience and nanotechnology, there is an urgent need to develop new biological models that can simulate native structure, function, and genetic properties of tissues to evaluate the adverse or beneficial effects of nanomaterials on a host. Among the current biological models, three-dimensional (3D) organoids have developed as powerful tools in the study of nanomaterial-biology (nano-bio) interactions, since these models can overcome many of the limitations of cell and animal mode… Show more

“…Over time, the mesentery becomes an essential organ connecting, supporting, and suspending the intestine, possibly promoting the development of the intestine through its role in energy transport. 28,29 In addition to its structural functions, the mesentery also possesses immune and metabolic activity (Fig. 2c).…”

The implication of mesenteric functions and the biological effects of nanomaterials on the mesentery

“…Over time, the mesentery becomes an essential organ connecting, supporting, and suspending the intestine, possibly promoting the development of the intestine through its role in energy transport. 28,29 In addition to its structural functions, the mesentery also possesses immune and metabolic activity (Fig. 2c).…”

The implication of mesenteric functions and the biological effects of nanomaterials on the mesentery

Advances in Organoid Technology: A Focus on Corneal Limbal Organoids

Intestinal organoid technology and applications in probiotics