The breakthrough science focused on replicating heart tissues, bringing research closer to generating functional, bioprinted organs, which would have broad applications in disease modelling ...

The breakthrough science focused on replicating heart tissues, bringing research closer to generating functional, bioprinted organs, which would have broad applications in disease modeling ...

Focusing on heart tissue, the study showed that cell-generated forces could guide the shape-morphing of bioprinted tissues. The Galway team also demonstrated that tweaking factors such as the initial ...

The breakthrough science focused on replicating heart tissues, bringing research closer to generating functional, bioprinted organs, which would have broad applications in disease modelling, drug ...

According to the researchers, this breakthrough brings us a step closer to generating functional bioprinted organs. Scientists at the University of Galway have developed a new way of 4D ...

A 3D mould of the patient’s bladder was then bioprinted and soaked with cultivated cells. The mould was placed in an incubator and was able to be transplanted into the patient’s body.

The breakthrough science focused on replicating heart tissues, bringing research closer to generating functional, bioprinted organs, which would have broad applications in disease-modelling, ...

The breakthrough science focused on replicating heart tissues, bringing research closer to generating functional, bioprinted organs, which would have broad applications in disease modelling ...