The UAB Lung Biology Program provides a cutting-edge and interdisciplinary hub for scientists, clinicians, and the next generation of researchers to accelerate understanding of lung biology through ...

3D-printed lungs made with living cells could help to improve lung disease prevention and treatment—and potentially one day offer a lab-grown option for use in organ transplants. University of ...

A new study has developed a method to mass produce lung organoids, similar to the heart organoid pictured above. Courtesy of Syracuse University For years, the promise of growing human lung tissue ...

Researchers at Texas A&M University model extreme conditions using 3D bioprinting, revealing insights that could make flight and space travel protocols safer while driving new breakthroughs in ...

The lung is one of the tissues most sensitive to radiation in the human body. People exposed to high radiation doses following nuclear incidents develop radiation-induced lung injury (RILI), which ...

Respiratory diseases are a challenging problem to treat. Inhalable medicines are a promising solution that depend on the ability to deliver tiny particles known as aerosols to the correct location in ...

Researchers say in future it may be possible to grow personalized organoids from patient’s own tissue, to test potential treatments in advance.

The lung is a highly specialised organ that develops through a complex series of branching events and cellular differentiation processes. From the initial budding of the foregut, the formation of ...

A method has been reported by researchers from Tsinghua University in China, which enables the efficient and high-throughput production of lung cancer assembloids. These assembloids are ...

The Lung Biology Program stands at the forefront of pioneering research and thrives through a dynamic network of collaboration with the Division of Pulmonary, Allergy, and Critical Care, the Targeted ...