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Press release - 29/09/2023
The European Parliament’s amendments to the proposal for a Regulation on Artificial Intelligence (AI) may be defined as a socio-ecological turnaround compared to the European Commission’s existing draft. The parliamentary draft proposes a series of environmental and climate-related provisions which, in the Oeko-Institut’s view, are feasible and technically achievable. The Oeko-Institut has reviewed these proposals in a Policy Paper.
https://www.biooekonomie-bw.de/en/articles/pm/ecological-alignment-artificial-intelligence
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Help with osteoarthritis of the knee - 27/09/2023
Knee joints are subject to considerable stress throughout our lives. The natural shock absorber cartilage wears out over a lifetime, so many people develop knee osteoarthritis. Treatment is available in the form of artificial cartilage. This "off-the-shelf" tissue often does not grow well. Researchers are developing an individualised cartilage replacement made from biomaterial that is produced by 3D printing based on MRI images.
https://www.gesundheitsindustrie-bw.de/en/article/news/individualised-knee-joint-cartilage-artificial-tissue-fits
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Food of the future: new production methods - 06/09/2023
A rapidly growing world population and simultaneously rapidly shrinking arable land – these are just some of the major challenges facing the food industry. But how can solutions be found? Answers are being sought by the bioeconomy innovation space NewFoodSystems. Funded by the German Federal Ministry of Education and Research (BMBF), it is a network where science and industry can come together to develop sustainable food systems of the future.
https://www.biooekonomie-bw.de/en/articles/news/newfoodsystems-innovation-space-tomorrows-food
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Press release - 30/08/2023
Rising sea levels due to climate change and artificial irrigation cause soil salinity to increase. This has a negative impact on agriculture, including viticulture. The plants die, yields decrease. Researchers of Karlsruhe Institute of Technology (KIT) have therefore studied a wild grapevine of higher salt tolerance. Their goal is to identify the genetic factors that make the grapevine resilient.
https://www.biooekonomie-bw.de/en/articles/pm/soil-salinity-wild-grapevine-defends-itself
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DNA nanotechnology - 25/08/2023
The physicists Prof. Dr. Kerstin Göpfrich and Prof. Dr. Laura Na Liu want to understand life from the bottom up. They intend to do this by constructing an artificial cell. However, rather than natural protein building blocks, they are using 3D-DNA structures as construction material. The first step involved creating an artificial cell skeleton that dynamically assembles and disassembles like the biological model and can transport vesicles.
https://www.gesundheitsindustrie-bw.de/en/article/news/artificial-cytoskeleton-made-dna-synthetic-cells
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Project BlindZero - 03/08/2023
Thousands of cornea transplants are performed every year. However, donors are rare and the procedure is not always without complications. Researchers at the University of Heidelberg are developing an innovative technique in the project BlindZero. It involves ‘printing’ human corneas directly onto patients’ eyes using 3D bioprinting. The reprogrammed genetically engineered cells used for this purpose are not expected to cause a rejection reaction.
https://www.gesundheitsindustrie-bw.de/en/article/news/hope-patients-eye-diseases-human-cornea-3d-printers
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NeuroQ project - 26/07/2023
Could people suddenly be able to move again decades after being paralysed? State-of-the-art quantum sensors integrated in exoskeletons could make this possible. Technology being developed as part of the BMBF-funded NeuroQ beacon project by researchers from organisations including the Fraunhofer IAF, the Charité in Berlin and the University of Stuttgart might achieve even more: besides facilitating movement, it could also help cure paralysis.
https://www.gesundheitsindustrie-bw.de/en/article/news/quantum-sensors-exoskeletons-can-quantum-physics-beat-paralysis
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Press release - 13/07/2023
Wearable medical devices, such as soft exoskeletons that provide support for stroke patients or controlled drug delivery patches, have to be made of materials that can adapt intelligently and autonomously to the wearer's movements and to changing environmental conditions. These are the type of autonomously switchable polymer materials that have recently been developed by researchers at the University of Stuttgart and the University of…
https://www.gesundheitsindustrie-bw.de/en/article/press-release/intelligent-rubber-materials
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Website address: https://www.biooekonomie-bw.de/en/search