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European researchers have identified a novel approach to prevent the growth of cancer tumours and inhibit them from spreading, potentially leading to highly effective treatments with fewer side effects.
An ERC-funded project has significantly increased understanding of the crucial role that microorganisms in the gut play in maintaining health. The findings have since led to a patent, as well as a follow-on project that could one day steer the way to new targeted treatments for diseases, including cancer.
Over the past months, a sudden influx of ‘Pokémon Go’ players could be observed across the globe. Youngsters, people of all ages scrutinise their surroundings silently, using their smartphones to catch those digital creatures with unlikely names. How could such a phenomenon take over the world so fast? Part of the answer may be the game’s strong interaction with the real-world and its impressive mapping, offering a whole new virtual experience of spaces that seem to be familiar and yet so different.
By focusing on certain actions and reactions within the brain, an EU-funded project has advanced understanding of how Alzheimer’s Disease develops. This could potentially open the door to a new era of targeted treatments.
Many industries – and each of our cells – depend on emulsions. An EU-funded researcher has developed a method for studying molecules at the interface between oil nanodroplets and the water-based liquid contained in these substances. Her work advances understanding of liquid interfaces and emulsion stability, and is of great interest to industry.
More than 3.5 million new people are diagnosed with heart failure every year in Europe, with a long-term prognosis of 50% mortality within four years. There is urgent need for more innovative, regenerative therapies with the potential to change the course of the condition.
While on court, beach volleyball players need to act as a whole in order to prevent the ball from touching the sand: in a fraction of a second - just before the opponent's hand spikes the ball - the passer has to predict and adjust to the attacker's action as well as to their teammate's block position. Thanks to her Consolidator Grant, cognitive science professor Natalie Sebanz is studying the cognitive and psychological mechanisms underlying joint action expertise – in other words, how individuals learn skilled actions, such as those performed by professional athletes, together.
Imagine your favourite football team entering a stadium. An army of wireless cameras is following the players to give you the best possible view – of the whole pitch, of the chanting crowd, of each footballer, from the tip of his head to the grass blades he treads with his cleats. Thanks to Prof. Leif Oxenløwe’s research, this kind of wireless ultra-high definition television broadcasting can one day become a reality.
European researchers have designed brain-like artificial neural networks capable of numerical and spatial cognition and written language processing without any explicit training or pre-programming. Their work, based on the machine-learning approach of generative models, significantly advances the development of self-learning artificial intelligence, while also deepening understanding of human cognition.
Cardiovascular diseases (CVD) are a major cause of morbidity and mortality in Europe. Prevention relies on measuring traditional risk factors such as age, gender, hypertension, diabetes, hypercholesterolemia and smoking. However, many individuals, apparently at low-risk, still develop CVD. Improving predictions beyond the traditional risk factors is the challenge undertaken by Prof. Olle Melander.