Because these factors impact disease transmission, the researchers wanted to design a respiratory model that was as true to life as possible. The researchers used high-speed cameras and a laser ...

The research team used 3D printing technology to develop an artificial lung composed of a vascular epithelium, extracellular matrix and epithelium, mimicking the respiratory tract tissue structure of ...

Parts of the model represent different parts of the respiratory system as shown here. The model, which is air tight, represents the thorax, and air is only able to enter via the glass tube which ...

The innovative use of human respiratory organoids established by the HKUMed research team has overcome this barrier, providing a novel model system for studying and combating HRV-C. The research ...

A graduate of Stanford University’s prestigious EENT Innovation Biodesign program in 2019, Diag-Nose.io is redefining ...