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Researchers from the University of Waterloo and the University of Stuttgart have made advancements in the field of medical robotics by developing advanced materials for soft medical microrobots. These microrobots are bio-compatible, non-toxic, and capable of performing intricate medical procedures with minimal invasiveness. The researchers aim to revolutionize medicine with these smart microrobots. In another study, a soft robotic platform has been created for minimally invasive procedures, which can stabilize the entrance to the heart and guide surgical instruments. The new issue of Science Robotics also highlights recent developments in user-centric robotic exoskeletons and prosthetic limbs.
The new issue of Science #Robotics highlights recent developments in user-centric robotic #Exoskeletons and #Prosthetic limbs, explains an Editorial by Amos Matsiko and Douglas Weber. https://t.co/UmOX1yuQXr https://t.co/oYT0vLocr3
Run faster and walk farther with this AI exoskeleton https://t.co/Nnp0K3BrIi
Collaborating with researchers from both the University of Waterloo and the University of Stuttgart in Germany, this project represents a significant step forward in the quest to revolutionize medicine with smart microrobots.
As Professor Shahsavan notes, chemical engineers are playing a pivotal role in pushing the boundaries of medical microrobotics.
magine microrobots no larger than a centimeter, bio-compatible, non-toxic, and capable of performing intricate medical procedures with minimal invasiveness.
In an exciting breakthrough, a team of researchers from the University of Waterloo is paving the way for the future of medical robotics. These researchers have developed advanced materials that will serve as the foundation for a new generation of soft medical microrobots.
Tiny soft robots might be the future of surgeries https://t.co/yjaOQCdn0P
Researchers have created a soft #robotic platform for minimally invasive procedures that can both stabilize the entrance to the heart and guide existing surgical instruments. Learn more in this week's issue of Science Advances: https://t.co/E4NWSQjfs4 https://t.co/DI9FagsRde
A new Science #Robotics study spotlights a soft hip #Exoskeleton reduces metabolic costs of walking by assisting dynamic balance. @CAU_News @UICEngineering https://t.co/J2N74BSZUK https://t.co/UA61c9V53i