Formlabs Introduces New BioMed Black Resin and BioMed White Resin Materials
Formlabs introduced the new BioMed Black Resin and BioMed White Resin, two highly opaque medical-grade materials targeted for use in biocompatible applications.
News and Insights of 3D Printing and Manufacturing
Homebiomaterial
Formlabs introduced the new BioMed Black Resin and BioMed White Resin, two highly opaque medical-grade materials targeted for use in biocompatible applications.
Remember when, in 2017, scientists 3D printed an artificial ovary and implanted it into a sterile mouse, which later gave birth to healthy pups? Now, science has gone one step further by 3D printing testicular cells – showing promising early signs of sperm-producing capabilities.
Scientists from Carnegie Mellon University (CMU), Pennsylvania, have used a novel 3D bioprinting method to build functional parts of the human heart.
CollPlant, an Israeli 3D bioprinting and regenerative medicine firm, has announced that it is developing implants for breast tissue regeneration. After conducting early development, the company has successfully produced the first prototypes. It believes that these 3D bioprinted breast implants could have the potential to provide a safer alternative to the standard methods of permanent breast implantation.
Materialise‘s 3D technologies played a crucial role in the world’s first successful si ...
Two postdoctoral researchers at UC Santa Barbara, Renxuan Xie and Sanjoy Mukherjee, developed the first 3D-printable “bottlebrush” elastomer. The new material results in printed objects that have unusual softness and elasticity that closely resemble those of human tissue. The researchers’ findings were published in the journal Science Advances.
The Queensland University of Technology (QUT) in Brisbane, Australia, and Shanghai-based researchers, including the Chinese Academy of Sciences, have received $300,000 to establish a 3D bioprinting research centre.
Researchers from the Delft University of Technology in the Netherlands have discovered 3D printed biodegradable magnesium scaffolds could have promising applications in the regeneration of critical-sized bone defects.