MIT engineers 3D print multidirectional muscle tissue that flexes like the human iris - opening new paths for biohybrid ...

The findings were published in Science Robotics, showcasing the potential of integrating biological systems with robotic frameworks. The biohybrid hand operates using “MuMuTAs” (multiple muscle tissue ...

Researchers at MIT created synthetic muscle tissue that flexes in multiple directions, advancing the development of biohybrid robots for diverse applications.

One halcyon spring day in 1903, the 69-year-old anatomist and naturalist Dr. James Bell Pettigrew sat at the top of a sloping ...

Researchers have developed a new method to grow artificial muscle tissues that can twitch and flex in multiple directions.

There are many reasons why you wouldn't want to eat seafood that's not fresh. In order to avoid that, here are some signs ...

MIT engineers have made a breakthrough in this area—they’ve developed a method to grow muscle tissue that contracts in ...

When it comes to enhancing running performance, carbon plate shoes have emerged as a popular tool among athletes. However, as the Wuhan Marathon approaches, medical professionals are urging caution ...

The flexibility of biohybrid robots could allow them to squeeze and twist through areas that are too small or complex.

Scaling up biohybrid robots has been difficult due to the weak contractile force of lab-grown muscles, the risk of necrosis ...