Technology Networks spoke with Dr. Thomas Dennison, University of Cambridge, to learn more about the advantages of using ...

Advances in three-dimensional organoid technology have revolutionized the stem cell field. Intestinal stem cells can be expanded and functionally differentiated to form “mini-organs” or organoids that ...

Researchers from the Organoid group at the Hubrecht Institute have developed a new way to grow organoids. Organoids are tiny ...

Our approach to organoid culture and differentiation involves the use ... and bond formation to study how intestinal stem cell colonies respond to alterations in geometric confinement, mirroring ...

Huch’s pancreatic organoids are now a promising avenue for disease modeling and generating precision medicines to treat ...

Animal science graduate student Erikah Dozier discovers her skill and passion for research in UD's Department of Animal and ...

Caption A single human intestinal organoid, or HIO -- a hollow ball of cells grown from human embryonic stem cells and coaxed to become gut-lining cells. Scientists can use it to study basic gut ...

Although tissues generated from intestinal organoids resemble the mucosa, functional smooth muscle layers and the neural plexus are absent. An example that highlights the clinical importance of ...

A research team has successfully utilized human respiratory organoids (mini-organs) to propagate human rhinovirus C (HRV-C), ...