Human induced pluripotent stem cells (iPSCs) have a great potential for scientific and medical applications. They are used in ...

The increasing implication of glial cells in neurodegenerative diseases makes them an appealing addition to iPSC-based model systems for investigating ... neurons and complex 3D organoid cultures with ...

In an interview with Technology Networks, Dr. Frederic Cedrone, vice president of corporate innovation at Catalent, discussed the challenges faced and solutions found by companies developing ...

By adding immune cells known as macrophages to the organoid, they discovered the macrophages promoted the formation of blood vessels, and the team undertook 3D imaging to assess blood vessel ...

Housed within each baby tooth are cells that can be transformed—with iPSC technology—into neurons ... These are essentially 3D models of ASD that enable the team to compare the structure and function ...

Researchers used iPS cells to treat a cancer patient for the first time in Japan earlier this month at Chiba University Hospital. Chiba University and Riken science research institute researchers ...

Since the discovery of human iPS cells, a principal goal for researchers worldwide has been to use them for various medical applications, including cell therapy. Among different human diseases ...

Researchers led by Osaka University in Japan have conducted the first human trial using induced pluripotent stem-cell-derived ...

Transplanting corneal cells made from human induced pluripotent stem (iPS) cells into patients with a vision-impairing disease didn’t cause any serious side effects, researchers announced on ...