3D bioprinting, in which living tissues are printed with cells mixed into soft hydrogels, or "bio-inks," is widely used in ...

Normal mechanisms don't support this type of thing; that's why ARPA-H can bring in some horsepower here to really ...

The human kidney filters about a cup of blood every minute, removing waste, excess fluid, and toxins from it, while also ...

Increased spending on biomedical R&D, the fast adoption of personalized medicine, and innovation in bio-inks and printing technologies are driving the global 3D bioprinting market.Austin, United ...

In a collaborative article, Gorka Orive, a researcher in the UPV/EHU's NanoBioCel group, explores the potential and limitations of 3D bioprinting as well as the challenges it faces in the area of ...

Rice University bioengineer Antonios Mikos is part of a team of researchers led by the Wake Forest Institute for Regenerative ...

A team of University of Alberta researchers has discovered a way to use 3-D bioprinting technology to create custom-shaped cartilage for use in surgical procedures. The work aims to make it easier for ...

What happens to soft matter when gravity disappears? To answer this, UvA physicists launched a fluid dynamics experiment on a sounding rocket. The suborbital rocket reached an altitude of 267 km ...

The first step of bioprinting is to create a model of the organ using biopsy samples, CT scan, and MRI. Then, a mixture of cell and nutrients (also called as bioink) are added to the scaffold in a ...

Engineers from UNSW Sydney have developed a miniature and flexible soft robotic arm that could be used to 3D-print biomaterial directly onto organs inside a person's body. 3D-bioprinting is a process ...

Let’s face it, cells generally like having company, forming communities with other cell types to make complete tissues. However, quite often, researchers isolate cells from their 3-D environments, ...