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Although human wellbeing has been a topic of discussion for centuries, assessments of the subject have often focused on narrow demographic groups and missed the bigger picture. With European Research Council (ERC) support, a leading demographer aims to change the way we think about happiness and wellbeing by seeing the future of humanity through the prism of global sustainable development.
About the size of a big cherry, the first-of-its-kind 3D printed heart has cells, blood vessels, ventricles and chambers. This feat is the work of Prof. Tal Dvir and his team at Tel Aviv University. They managed to engineer such miniature organs using cells and biological materials that are originated from human patients. Besides the remarkable technical achievement, this breakthrough could potentially be the answer to the shortage of organ donors in the future.
Two volunteers are the first above-knee amputees in the world to feel their prosthetic foot and knee in real time. Their bionic prosthesis, developed by a European team of researchers, has sensors that connect to residual nerves in the thigh. The resulting neurofeedback reduces physical and mental strain for prosthesis users as well as their phantom limb pain. They can also walk faster and with more confidence. Researchers, partly supported by ERC funds, recently reported on their achievement in Nature Medicine.
ERC grantee Juergen Brugger and his team have developed biodegradable microresonators that can be heated locally with a wireless system. Doctors could soon be using them in implants to control the release of painkillers within tissue. By Laure-Anne Pessina - Originally published on the EPFL website
How can we develop new materials that meet the extreme challenges of aerospace applications? Seizing the great potential of magnesium as a lightweight metal or making steels more resistant to failure and corrosion are two engineering challenges whose roots lie deep down at the atomic scale. Using models that bridge across scales from the atomic to the observable level, an ERC funded scientist investigates why materials behave and fail the way they do.
By combining computer science and molecular biology, researchers have been able to work on a programmable biological computer that in the future may navigate within the human body, diagnosing diseases and administering treatments. This is what Professor Ehud Shapiro and his team have called a ‘Doctor in a cell’.