Stimulating muscle fibers with magnets causes them to grow in the same direction, aligning muscle cells within tissue. The findings offer a simpler, less time-consuming way for medical researchers to ...

This illustration depicts the novel electrohydrodynamic (EHD) bioprinting process. The electrical force aligns fibrin nanofibers within the bioprinted hydrogel filament, which in turn guides the ...

This illustration depicts a new platform for magnetic matrix actuation, enabling the study of how tissues respond to dynamic mechanical cues in their environment. Stimulating muscle fibers with ...

What makes a body’s organs into what they are is more than just a grouping of specialized cells. They also need to be oriented and attached to each other and scaffolding in order to create structures ...

(Nanowerk News) Prof. Sang Ouk Kim’s group at KAIST has developed a new type of artificial muscle fiber based on graphene-liquid crystal elastomer composites. This new artificial muscle has been ...

Over the last decade, advances in 3D printing have unlocked new possibilities for bioengineers to build heart tissues and structures. Their goals include creating better in vitro platforms for ...