Ultra-Fast Chemical Analysis Imaging With Raman
Ultra-Fast Chemical Analysis Imaging With Raman
Most diseases including cancers, viral infections, neurodegenerative conditions, cardiovascular and musculoskeletal disorders, all originate from a molecular level disruption of the biological cell lifecycle. Each year the cost to the EU is ca. 1.9 million lives and ca. €200 billion in health care, informal care and productivity loss for cancers alone. Current live cell imaging tools can only provide a limited view of the in vivo and in vitro microenvironments where diseases originate and grow. The result is a gap in our understanding of the biochemical cellular makeup and how their disturbance leads to disease. By increasing accuracy and speed of imaging and analysis, the gap can be closed allowing novel medical treatments and diagnostics tailored to patients’ specific conditions. uCAIR brings successful R&D photonics SMEs, research laboratories in optics and cell biology, and world-leading microscopists and clinicians to create an innovative, versatile, practical multimodal photonics platform that will enhance and speed up the way cells are examined by scientists and healthcare professionals. uCAIR will achieve breakthrough results by developing a laser platform that inventively combines non-linear optical fibers, optronics, wide-band coherent Raman and artificial intelligence technologies to image at video rates and track cells and biological tissues with augmented chemometric digitalisation. The new coherent light sources will be suitable for fundamental research microscopes and microfluidic channels but also in medical imaging instruments, encompassing a value chain for new biomarker discoveries and translation into medical endoscopy, for example during cystoscopy and resection of bladder cancer. Technology progression to TRL 6 will allow first mover advantage with sustainable supply chain. In this way, uCAIR sustains the European leadership in photonics to deliver continuous innovation and outstanding benefits for its economy and the health of its population.
Samek Ota - Ústav přístrojové techniky Akademie věd České republiky, v.v.i.
Severcan Feride - ALTINBAS UNIVERSITESI
Denzler Joachim - FRIEDRICH-SCHILLER-UNIVERSITAT JENA
Popp Juergen - LEIBNIZ-INSTITUT FUER PHOTONISCHE TECHNOLOGIEN E.V.
Beugnot Jean-Charles - CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
Claudot Sébastien - PHOTONICS BRETAGNE
Emeraud Thierry - LAMBDA-X SA
Will Fabian - LLS ROWIAK LASERLABSOLUTIONS GMBH
Lecourt Jean-Bernard - Multitel