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Financement de l’UE (3 982 000 €) : Redéfinir la spectrométrie de masse – une plateforme révolutionnaire pour l’analyse non invasive de l’haleine en temps réel avec détection d’ions uniques de virus … Hor26/03/2021 Programme de recherche et d'innovation de l'UE « Horizon »
Texte
Redéfinir la spectrométrie de masse – une plateforme révolutionnaire pour l’analyse non invasive de l’haleine en temps réel avec détection d’ions uniques de virus et de bactéries intacts et caractérisation moléculaire post-analyse
The extraordinary ability of the coronavirus to spread in the environment has established the Covid-19 pandemic as the biggest challenge humanity faces in the XXI century. Covid-19 attacks humans regardless of age, claiming the life of over 8,000 people in a single day, with a devastating death toll exceeding 350,000 in just a few months. The virus is likely to survive for the foreseeable future and disperse further, requiring long-term planning and investment in developing means of detection, protection and cure. Protective measures based on monitoring the dispersion of the coronavirus in the environment and fast screening of individuals has become paramount for ensuring safety of our ageing population and restarting/supporting the worldwide economy. The objective of the ARIADNE project is to develop a multiple-stage analytical platform based on multi-dimensional mass spectrometry instrumentation. Performing direct and instant detection of intact virus particles in breath and in water, and going far beyond that task, this unique analytical platform will push the scientific boundaries in all aspects of analytical sciences centered on mass spectrometry, incorporating a series of potentially disruptive technologies integrated into a single system. ARIADNE integrates state-of-the-art technological advancements in breath sampling and post-ionization methods, new analytical tools for characterization of the protein content of viruses by top-down mass spectrometry, non-destructive ultra-high mass analysis of single particles followed by their soft landing and further processing based on advanced single proteomic workflows. A compact and simplified version of this versatile and powerful analytical platform is also envisaged for advancing the field of real-time breath analytics. Applications extending the analytical capabilities of the system to new viruses, intact bacteria as well as whole human cells will also become accessible.
| Centre National de la Recherche Scientifique CNRS | 452 500 € |
| Fasmatech Epistimoniki Kai Technologiki ΑΕ | 1 367 500 € |
| Fossil Ion Technology SL | 495 000 € |
| Karolinska Institutet | 617 000 € |
| LEIBNIZ-INSTITUT FUR VIROLOGIE | 0,00 € |
| SPECTROSWISS Sàrl | 450 000 € |
| UNIVERSITAET SIEGEN | 180 489 € |
| UNIVERSITAET zu LUEBECK | 419 511 € |
| Universite Lyon 1 Claude Bernard | 0,00 € |
https://cordis.europa.eu/project/id/964553
Cette annonce se réfère à une date antérieure et ne reflète pas nécessairement l’état actuel.
