A stem-cell-based model closely captures the development of human embryonic and key extra-embryonic tissues after implantation, as well as the formation of early blood cells.

New human cell-based 3D model reveals insights into how immune cells contribute to Alzheimer's disease The model provides insights into the progression of AD and could help to accelerate the ...

Johns Hopkins Medicine scientists have used glowing chemicals and other techniques to create a 3D map of the blood vessels and self-renewing "stem" cells that line and penetrate a mouse skull. The ...

A 3D model accurately mimicking the Blood-Brain Barrier (BBB) in a laboratory environment has been successfully developed by research teams led by Professor Jinah Jang from the Departments of ...

Johns Hopkins Medicine scientists have used glowing chemicals and other techniques to create a 3D map of the blood vessels and self-renewing “stem” cells that line and penetrate a mouse skull ...

Johns Hopkins Medicine scientists have used glowing chemicals and other techniques to create a 3D map of the blood vessels and self-renewing "stem" cells that line and penetrate a mouse skull.

Researchers have 3D-printed a heart using a patient’s cells, providing hope that the technique could be used to heal hearts or engineer new ones for transplants.

In a three-dimensional culture system, neurons expressing AD mutations activated glia. CD8+ T cells infiltrated the culture. When both CD8+ T cells and microglia were present, neurodegeneration ensued ...

A breakthrough in the understanding of how mammals create red blood cells by Dr Julia Gutjahr, who began her research into the mechanisms of blood production in the lab of Professor Antal Rot in the ...