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start [2021/07/28 10:26] – Michele GIUGLIANO | start [2021/09/27 23:26] – Michele GIUGLIANO |
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[[https://ec.europa.eu/programmes/horizon2020/en|{{:ec-h2020.png?400}}]] | [[https://ec.europa.eu/programmes/horizon2020/en|{{:ec-h2020.png?400}}]] |
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IN-FET is the acronym of a European scientific project consortium, funded by the European Commission during 2020-2023. It stands for //Ionic Neuromodulation For Epilepsy Treatment// and brings together engineers, biologists, physicists, and neuroscientists to tackle the hard problem of repairing and treating the brain. | IN-FET is the acronym of a European scientific project consortium, funded by the European Commission during 2020-2023. It stands for //Ionic Neuromodulation For Epilepsy Treatment// and brings together engineers, biologists, physicists, and neuroscientists to tackle the hard problem of repairing and treating the brain. |
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**Read [[pressrelease1|here]] our kick-off press release.** | **Read [[pressrelease1|here]] our kick-off press release.** |
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Aiming at novel neuro-technological routes for brain treatment, the project combines very different disciplines of science and technology, such as neurobiology, electrochemistry, 3D nanofabrication, nanoelectronics, and numerical simulations. The IN-FET consortium of academic and industrial partners has a laser-sharp focus on exploiting neuronal biophysics and electronic device modeling, to build a breakthrough technology for a brand new generation of brain pacemakers. | Aiming at novel neuro-technological routes for brain treatment, the project combines very different disciplines of science and technology, such as neurobiology, electrochemistry, 3D nanofabrication, nanoelectronics, and numerical simulations. The IN-FET consortium of academic and industrial partners has a laser-sharp focus on exploiting neuronal biophysics and electronic device modeling, to build a breakthrough technology for a brand new generation of brain pacemakers. |
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IN-FET's efforts and discoveries will ultimately advance current neuromodulation strategies, specifically aiming at future brain implants for the treatment of brain disorders such as epilepsy. IN-FET will advance neuroscience, biomedical microsystems engineering, and nano- neurotechnology. | IN-FET's efforts and discoveries will ultimately advance current neuromodulation strategies, specifically aiming at future brain implants for the treatment of brain disorders such as epilepsy. IN-FET will advance neuroscience, biomedical microsystems engineering, and nano- neurotechnology. |
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[[https://twitter.com/fet_in|{{:twitter.png?30}}]] [[https://www.youtube.com/channel/UC4299VceGDOSVqmFTgHTIEw|{{:youtube.png?30|}}]] [[https://www.facebook.com/infetproject/|{{:facebook.png?30|}}]] | [[https://twitter.com/fet_in|{{:twitter.png?30}}]] [[https://www.youtube.com/channel/UC4299VceGDOSVqmFTgHTIEw|{{:youtube.png?30|}}]] [[https://www.facebook.com/infetproject/|{{:facebook.png?30|}}]] |
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| Thanks to the [[https://www.mariecuriealumni.eu|MCAA]], [[http://startupregions.eu|SERN]], [[https://www.internationalbrainlab.com|IBL]], [[https://www.hug.ch/en|HUG]], and [[http://sitran.org|SITRAN]] for their expressions of interest. |
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| [[https://www.mariecuriealumni.eu|{{logo.jpg}}]] [[http://startupregions.eu|{{logo_sern.png}}]] [[https://www.internationalbrainlab.com|{{IBL.png?250}}]][[https://www.hug.ch/en|{{hug.png?200}}]][[http://sitran.org|{{sitranlogo.png?50}}]] |
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