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The basis of the project is to discover methods able to precisely identify properties of very weak electrocardiographic potentials. These potentials are measured with high dynamic acquisition system, its frequency range reaches up to 2 kHz and amplitude resolution is in nV (UHF-ECG). UHF potentials reflect spatial-temporal distribution of electrical myocardial depolarization and ventricular electrical dyssynchrony. Since the UHF potentials in ECG signal represent completely novel measure, there is a lack of methodological background. Read more about Analytical methods for advanced identification of ventricular dyssynchrony

The aim of the project is to design and optimize an ultra-short echo-time pulse sequence for a direct measurement of the short-T2 signals arising from white matter of the brain. There are two main obstacles to a reliable detection of myelin sheaths: 1) their signal decays to zero in a few tens of microseconds; and 2) their signal is overwhelmed by the predominant long-T2 components from white matter of the brain. Read more about Design and optimization of ultra-short echo-time sequence for reliable detection of myelin content in the human brain by magnetic

The TRANSACT project (http://www.transact-itn.eu) brings together 10 academic and 4 industrial partners with complementary expertise in the field of magnetic resonance imaging techniques.This consortium as a whole will provide 468 person-months of employment and training to 13 Early Stage Researchers (ESRs) recruited for this ITN project. Read more about Transforming Magnetic Resonance Spectroscopy into a Clinical Tool

The project will investigate artificial high frequency electromagnetic structures composed generally from sub-wavelength cells that show unusual electromagnetic response not appearing in nature. These are planar artificial magnetic, and electro-magnetic surfaces, electro-magnetic band-gap, and frequency selective materials including graphene. Materials will be theoretically described and analyzed. The research will be supplemented by fabrication of specimens for experimental verification of their behavior. Investigation of graphene preparation methods will be included. Read more about Complex Artificial Electromagnetic Structures and Nanostructures