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

A model that can perfectly mimic human lungs would be “a game-changer” for lung treatment, allowing researchers to gain more ...

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 ...

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

D printed lungs from USask enable advanced disease research - showing promise for improving the study of tuberculosis and cystic fibrosis.

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

Lung cancer remains one of the deadliest cancers worldwide, with survival rates stubbornly low despite advances in surgery, ...

Researchers have discovered a promising new approach to lung cancer treatment. A small molecule called AVJ16 selectively blocks the cancer-driving protein IGF2BP1, halting tumor growth in preclinical ...

Every minute, a woman in the U.S. requires a blood transfusion due to heavy menstrual bleeding, or HMB. One in three women ...

In this GEN webinar, two experts in the field Amanda Linkous, PhD, and Hannah Nicholson, will highlight the powerful potential of organoid platforms to unearth hidden details of complex disease ...

A magnetic microrobot navigates lung airways, drills microlesions, gathers biomarkers, and rapidly classifies cancer tissue ...

On a clear polymer chip, soft and pliable like a gummy bear, a microscopic lung comes alive — expanding, circulating, and, for the first time, protecting itself like a living organ. “That was the ‘wow ...