cardiac tissue engineering
Zero Gravity, Big Impact: Ken Savin Talks Redwire’s Space Bioprinting Breakthroughs
In space, microgravity isn’t just a challenge—it’s an advantage. Redwire, known for pioneering space-based biomanufacturing, made history by sending the first bioprinter to the International Space Station (ISS) in 2019….
Harvard’s Wyss Creates New Way to 3D Print Blood Vessels—Moves Closer to Artificial Organs
Scientists at Harvard’s Wyss Institute have developed a new method to 3D print blood vessels that replicate the complex structure of human vasculature. Working in collaboration with the John A….
3D Printing News Briefs, July 27, 2022: Standards, Software, & Research
In today’s 3D Printing News Briefs, a proposed standard from ASTM International would define filament properties. Mango 3D announced a major update for its Lychee slicer. Finally, on to research,…
Osaka University: Vascularized Cardiac Construction with LbL & 3D Printing
Authors Yoshinari Tsukamoto, Takami Akagi, and Mitsuru Akashi, all from Osaka University, experiment with bioprinting in cardiac medicine, explaining their findings in the recently published ‘Vascularized cardiac tissue construction with…
The Progress & Ongoing Challenge of 3D Bioprinting Cardiac Tissue
In the recently published ‘3D bioprinting and its potential impact on cardiac failure treatment: An industry perspective,’ authors Ravi K. Birla and Stuart K. Williams explore the potential for tissue…
The Year in Review: Bioprinting in 2019
This year, the bioprinting community has discovered ways to speed up precision in 3D bioprinting. Even though experts have warned us that 3D printed organs might not be available for…