Opis projektu
Kompleksowe urządzenie do obrazowania komórek pomoże badaczom odkrywać nowe leki
Pandemia COVID-19 stanowi duże obciążenie dla opieki zdrowotnej, jednak pełne zrozumienie szlaków choroby jest konieczne dla szybkiego opracowania szczepionek i leków, które pomogą w walce z przyszłymi zagrożeniami zdrowotnymi. W związku z tym twórcy finansowanego ze środków UE projektu CoCID ustalili, że zmiany w wielkości i strukturze organelli komórkowych stanowią wczesne wskaźniki przedostania się choroby do komórki. Mikroskopia wykorzystująca miękkie promieniowanie rentgenowskie (SXM) to jedyna technologia dostępna do pomiaru wielkości i struktury organelli. Niestety, istniejąca infrastruktura SXM, zwana synchrotronami, jest duża i trudno dostępna dla badaczy. Mając to na uwadze, zespół projektu opracuje kompaktowe urządzenie do obrazowania komórek, by udostępnić SXM naukowcom zajmującym się chorobami i tworzeniem nowych leków.
Cel
The cost of influenza virus care in the EU was approx. €29 billion in 2018, or 2% of total healthcare costs. The costs to EU state governments for dealing with the Covid-19 virus could be 50 times that of influenza, effectively doubling normal healthcare costs. The EU needs to be better prepared to quickly develop vaccines and drugs to deal with future outbreaks but this can only be achieved with a full understanding of disease pathways.
The central idea in project CoCID is that changes in the size and structure of cellular organelle, as any disease infiltrates a cell, are seen as early warning indicators of that disease. The only technology available today that can image through a whole cell, measuring organelle size and structure, is soft x-ray microscopy (SXM).
The problem is that the illumination required for a soft x-ray microscope is currently only available at four football-stadium sized facilities, called synchrotrons, and only 2% of the disease research community have access. The challenge addressed by project CoCID is to make SXM available to the wider disease research and drug discovery community, while also showing how technology improvements enhance its ability to revolutionise cell structure imaging.
SiriusXT’s breakthrough innovation is its ability to miniaturize the synchrotron into a small chamber that will easily fit on a laboratory bench, providing the same type of soft x-ray illumination as the synchrotron. This novel and patented innovation, based on a laser-produced plasma (LPP) design, will give researchers 24/7 access to this imaging modality in their own labs.
To demonstrate impact, the scope of the project has been narrowed to focus only on diseases relating to viral and bacterial infection, allowing a consortium of leading virologists and imaging experts to collaborate in elucidating the cellular origins of viral infection in a range of applications while increasing the EU’s readiness for future viral pandemics.
Dziedzina nauki
- medical and health sciencesbasic medicinepharmacology and pharmacydrug discovery
- natural sciencesbiological sciencesmicrobiologyvirology
- medical and health scienceshealth sciencespublic healthepidemiologypandemics
- medical and health scienceshealth sciencesinfectious diseasesRNA virusesinfluenza
- medical and health scienceshealth sciencesinfectious diseasesRNA virusescoronaviruses
Słowa kluczowe
Program(-y)
Zaproszenie do składania wniosków
Zobacz inne projekty w ramach tego zaproszeniaSzczegółowe działanie
H2020-ICT-2020-2
System finansowania
RIA - Research and Innovation actionKoordynator
4 Dublin
Irlandia