An anthrobot is shown, depth colored, with a corona of cilia that provides locomotion for the bot. Xenobots—a new classification of robots built from biological cells—evolved from theory to reality in ...

Researchers have used human tracheal cells to create tiny biological robots that can move on their own and work together to encourage healing in damaged neurons without requiring genetic modifications ...

Researchers at Tufts University and Harvard University's Wyss Institute have developed Anthrobots, tiny biological robots crafted from human tracheal cells that can traverse surfaces and stimulate ...

An Anthrobot is shown, depth colored, with a corona of cilia that provides locomotion for the bot. (Gizem Gumuskaya/Tufts University via Courthouse News) (CN) — In a study published in Advanced ...

Researchers at Tufts University and Harvard University’s Wyss Institute have created tiny biological robots that they call Anthrobots from human tracheal cells that can move across a surface and have ...

Science has been exploring the idea of putting tiny robots inside the human body, assigning them tasks ranging from delivering drugs at target spots and performing surgery to 3D-printing inside living ...

Tiny biological robots can move on their own, assemble into 'superbots' and encourage nerve cells regrow. When you purchase through links on our site, we may earn an affiliate commission. Here’s how ...

Surgeons at New York City-based Mount Sinai performed the world’s first human tracheal transplant during an 18-hour procedure in January, marking the launch of its tracheal transplant program, the ...

After years of struggling to breathe and fearing she might suffocate in her sleep, Sonia Sein says she feels well enough to dance around with her grandchildren after undergoing the first-ever human ...