University researchers recently published a study analyzing the material properties of alginate graphene oxide, which could lead to new developments in both cancer research and 3D printing technology ...

A newly developed 3D-printable tissue scaffold is designed to break down in the body once it has served its medical purpose. The 4Degra biodegradable and customizable biomaterial could provide support ...

Amerigo Scientific is a leading supplier dedicated to providing key products and services for the biomedical and life sciences fields. Today, the company announced the launch of its comprehensive 3D ...

(Nanowerk News) Lawrence Livermore National Laboratory scientists have developed a new method for 3D printing living microbes in controlled patterns, expanding the potential for using engineered ...

Bioinks are allowing scientists to print out tissue, bone, and blood vessels. The 3D printer technology uses printable gels that contain supportive biomaterials as well as cells, according to a recent ...

“Our flexible 3D bioprinter means biomaterials can be directly delivered into the target tissue or organs with a minimally invasive approach,” Do said. “Our prototype is able to 3D print multilayered ...

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 ...

Researchers are one step closer to bioprinting organs and tissues using a novel granular hydrogel bioink. Every 9 minutes a person is added to the organ transplant waiting list in the United States, ...

(Nanowerk News) A new way of 3D printing soft materials such as gels and collagens offers a major step forward in the manufacture of artificial medical implants. Developed by researchers at the ...

A new way of 3D printing soft materials such as gels and collagens offers a major step forward in the manufacture of artificial medical implants. Developed by researchers at the University of ...

Hydrogels with particulates, including proteins, drugs, nanoparticles, and cells, enable the development of new and innovative biomaterials. Precise control of the spatial distribution of these ...