The piece of lab-grown meat had an artificial circulatory system of hollow fibers delivering nutrients and oxygen.

A new bioreactor system uses hollow fibers to deliver nutrients to lab-grown tissue, enabling scalable cultured chicken meat ...

More information: Hye-Jin Seo et al, Energy harvesting and storage using highly durable Biomass-Based artificial muscle fibers via shape memory effect, Chemical Engineering Journal (2024). DOI: 10 ...

Researchers have developed a hollow fiber bioreactor that mimics a circulatory system, overcoming challenges in tissue ...

Researchers from the University of Tokyo used semipermeable hollow fibers to grow 10 grams of lab-grown chicken breast.

Nugget-sized chunks of chicken with the texture of real meat have been grown in a lab for the first time. Japanese scientists ...

Now, MIT engineers have taken a major step toward developing robots that replace rigid gears with something much softer – almost like real, living muscle tissue. In other words, they have found a way ...

artificially grown muscle fibers. Such bio-bots could squirm and wiggle through spaces where traditional machines cannot. For the most part, however, researchers have only been able to fabricate ...

They grew along these grooves into fibers over the course of a day, and subsequently into a muscle roughly the same size as a human iris. The researchers then stimulated this artificial muscle ...

In other words, they have found a way to grow artificial muscle that can flex in multiple ... It consists of an inner set of concentric circular fibers and an outer layer of radiating fibers.