Using the new model, researchers can study how the infection affects the blood cells on a molecular level to make them less deformable. Other diseases that could be studied are the genetic ...

The team's new model is a 3D human neuroimmune axis model is comprised of stem-cell derived neurons, astrocytes and microglia along with peripheral immune cells.

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.

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 ...

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 ...

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 3D model has been developed that accurately replicates the complex structures of cerebral blood vessels, enabling researchers to mimic the blood–brain barrier.