The development could help scientists develop patient-specific treatments and one day offer a lab-grown lung transplant option.

Developing cardiac inflammatory organoid models incorporating multiple cell lineages is vital for novel therapies.

DTU researchers rethink fuel cells with 3D printing and ceramic, coral-inspired design, unlocking new potential for P2X and power generation in aerospace and beyond. A team of researchers at DTU may ...

Lung diseases like tuberculosis and cystic fibrosis can be difficult to treat. In part, that's because the two-dimensional models researchers use to study the diseases don't accurately reflect the ...

To explore possible treatments for various diseases, either animal models or human cell cultures are usually used first; ...

A 3D printable bio-active glass could be used to repair bone damage and help them grow back, a study suggests. The newly ...

Lab-grown meat is, technically, real meat (depending on how you define “real”) grown from animal cells in a controlled ...

Researchers have developed a 3D-printed lung tissue model that could help scientists better study and treat diseases.

New research shows fat buildup disables brain’s immune defenses in Alzheimer’s. A mouse treatment cleared plaques in just one ...

Laertis Ikonomou, associate professor of oral biology, is principal investigator of a two-year, $435,167 R21 grant from the ...

A team of researchers at DTU may have cracked one of the toughest nuts in sustainable energy: how to make fuel cells light and powerful enough for aerospace applications. Subscribe to our newsletter ...

Artificial tissues that mimic the placenta, endometrium, ovary and vagina could point to treatments for common conditions ...