Seaweed is found around the world. In fact, the name "seaweed" comprises a diverse range of species, from microscopic ...

The scientists tested different methods to see which encouraged the most tissue growth. They found that treating the seaweed ...

Tissue engineering requires a porous scaffold that will serve as both substrate and support for tissue growth. The scaffold forms the necessary spatial composition for directing cells to grow into the ...

Tissue engineering has brought revolutionary potential to the regenerative repair of damaged tissues, providing innovative solutions to restore function.

Seaweed is found around the world. In fact, the name "seaweed" comprises a diverse range of species, from microscopic ...

Upon analyzing the ECM, the researchers found glycosides, polysaccharides, and cellulose—the three main chemistries that have ...

We demonstrate here a cardiac tissue-engineering strategy addressing multicellular organization, integration into host myocardium, and directional cues to reconstruct the functional architecture of ...

Piezoelectricity in native bones has been well recognized as the key factor in bone regeneration. However, the current additive-manufactured scaffolds mainly focus on the reconstruction of bionic ...

Organ failure impacts millions of patients each year and costs hundreds of billions of US Dollars. Over the last 30 years, scientists have utilized a combination of tools, methods, and molecules of ...

Nanotechnology is currently being utilized for tissue engineering and regenerative medicine. Nanostructures can mimic tissue-specific bio-environments by designing constructs with particular ...