Projects

INNODERM

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Innovative Dermatology Healthcare based on Label-Free Spectral Optoacoustic Mesoscopy
(01 March 2016 – 31 August 2021)

INNODERM is a 5-year research and innovation program funded by the EU under H2020. It brings together an international research team from four European countries with the aim to develop a novel raster-scanning optoacoustic mesoscopy device (RSOM) for earlier, non-invasive skin cancer diagnosis. The portable, handheld, scalable, label-free will be used for point-of care dermatology suites for fast diagnosis and skin disease monitoring.  Being insensitive to photon scattering, the multispectral optoacoustic tomography device will bring a revolution to bio-optical imaging by dramatically improving upon conventional bio-optic barriers and will subsequently go beyond the abilities of current optical or optoacoustic devices. To achieve the goals of the INNODERM project, the partners will utilize cutting-edge methods in optoacoustic, photonic, and ultrasound technologies.  

Website: http://www.innoderm2020.eu

 

OPTOMICS

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Combining optoacoustic imaging phenotypes and multi-omics to advance diabetes healthcare
(01 January 2021 – 31 December 2025)


OPTOMICS is a 5-year research project funded by the EU under Horizon 2020 FET (Future and Emerging Technologies) program. The project brings together experts across disciplines from biology and multi–omics to biotechnology from five European countries with the aim to develop and validate a digital-twin model, which will generate non-invasive and inexpensive prognostic treatment and planning methods for type-2 diabetes patients. The OPTOMICS digital twin model aims to improve prediction and early detection of individuals likely to develop the disease by combining known molecular biomarkers with a novel non-invasive imaging phenotyping technology called Raster Scan Optoacoustic Mesoscopy (RSOM). To achieve these goals the OPTOMICS consortium will harness Artificial Intelligence and statistical methods combined with state-of-the-art multi-omics (genomics, metabolomics, and proteomics) and optoacoustic imaging technologies.

Website: https://optomics.munichimaging.eu

 

RSENSE

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Revolutionizing disease and environmental detection with portable optoacoustic sensing
(01 January 2020 – 31 December 2024)


RSENSE is a 5-year research and innovation program funded by the EU under H2020. It brings together engineers and physicians from four European countries aiming for a new and innovative, disruptive technology of spectral portable optoacoustics (sPROPT). This sensor will be accessible, inexpensive, portable and non-invasive. On the one hand, sPROPT will enable frequent monitoring for early signs of diseases, such as prevalent cardiovascular and metabolic diseases. On the other hand, sPROPT will revolutionize environmental sensing by allowing sensitive, disseminated, in-vehicle measurements and monitoring for on-board diagnosis. To achieve these ambitious goals, the RSENSE consortium uses methods ranging from artificial intelligence and data analytics to advanced optoacoustic technology.

Website: https://rsense.helmholtz-muenchen.de/

 

WINTHER

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Fast optoacoustic mesoscopy, using the skin as a window for therapeutic monitoring of local and systemic disease
(01 January 2020 – 31 December 2024)


WINTHER is a 5-year EU funded research project under the Horizon 2020 FET (Future and Emerging Technologies) scheme. It brings together the expertise of Small and Medium Size Enterprises (SMEs) and academic partners across four European countries in the field of optoacoustic imaging. The WINTHER project aims to build upon the already successful use of raster-scan optoacoustic mesoscopy (RSOM) in dermatological applications by developing the next generation of optoacoustic technology for achieving fast raster-scan optoacoustic mesoscopy (F-RSOM). This improved technology will enable assessment of progression and therapy in systemic diseases beyond dermatology and into cardiovascular and diabetes realms. If successful, F-RSOM will drive a paradigm shift in systemic disease monitoring and may dramatically improve healthcare diagnostic and prognostic options for patients and clinicians. To achieve these ambitions goals, the WINTHER project will utilize the latest technologies and methods in the fields of optoacoustics and ultrasound detectors, artificial intelligence, and data analytics.

Website: https://www.winther2020.eu