A low-cost, 3D-printed smart bandage is able to promote and monitor the healing process of chronic wounds. <br /><br /> ...

Using a 3D printer to create organic tissue models that function like living organs may sound like science fiction — but engineers at the University ...

Scientists can build microfluidic systems in a Petri dish out of collagen, cells, and other proteins with structural ...

Dr Olwyn Mahon on how she uses 3D models to understand tumour behaviour in urological cancers and why translating lab work to the real world can be difficult.

NMI, TU Darmstadt and Black Drop develop improved bioink Jörg Schäfer Pressestelle NMI Naturwissenschaftliches und Medizinisches Institut in R ...

Caltech professor of medical engineering Wei Gao and his colleagues are envisioning a smart bandage of the future-a "lab on ...

Using their novel FRESH 3D bioprinting technique, which allows for printing of soft living cells and tissues, a lab has built a tissue model entirely out of collagen.

The iCares bandage uses innovative microfluidic components, sensors, and machine learning to sample and analyze wounds and provide data to help patients and caregivers make treatment decisions.

Collagen is well-known as an important component of skin, but its impact is much greater, as it is the most abundant protein in the body, providing structure and support to nearly all tissues and ...

Using their novel Freeform Reversible Embedding of Suspended Hydrogels (FRESH) 3D bioprinting technique, which allows for the ...