The medical device industry is at the forefront of innovation, transforming healthcare delivery through groundbreaking technologies. At the center of this progress are life science innovations, which ...

These printed organs would be created from the very cells of the body they will re-enter, matching the exact size, specifications and requirements of each individual patient. Basics of 3D ...

When 3D printing was first introduced in 1985, it marked a major turning point for the manufacturing industry. In addition to ...

The vast majority of photoresins for 3D printing (also referred to as additive manufacturing or AM) and related technologies ...

Using toolpath-optimized deposition-based methods, an team of researchers has proposed an innovative approach to 3D-print ...

Cell biology is the discipline of biological sciences that studies the structure, physiology, growth, reproduction and death of cells. Research in cell biology uses microscopic and molecular tools ...

A new technology developed at MIT enables scientists to label proteins across millions of individual cells in fully intact 3D ...

In a truly futuristic feat, researchers from the University of Strathclyde in Glasgow, Scotland, have built a 3D-printed microscope in under three hours, costing a total of around $60 / £50 / AU$95 – ...

The global 3D bio-printing market is set for extraordinary growth, with its value expected to surge from USD 2.24 billion in ...

A research team led by Ida Anna Cappello of the Heart Rhythm Management Centre of the University Hospital Brussels (VUB) has ...