Laboratories

The Clinical Bioengineering Group innovates optoacoustic (photoacoustic) systems and theory for reaching unprecedent imaging ability in preclinical and clinical anatomical, physiological and molecular imaging applications...(more)

The Laboratory develops advanced fluorescence imaging methods for pre-clinical and clinical imaging, leading in 2011 to the first clinical translation of a targeted fluorescent agent for optical molecular imaging of patients. Focus is on the development of quantitative, real-time and tomographic methods that go well beyond conventional “photographic” fluorescence image...(more)

Our group’s primary research interest is to understand the mechanobiology of the airway epithelium. (more)

The Laboratory for Optoacoustic Endoscopy innovates optoacoustic (photoacoustic) systems and theory for reaching unprecedent imaging ability in preclinical and clinical anatomical, physiological and molecular imaging applications...(more)

Our group conceives, designs and develops multispectral optoacoustic technology that allows performing non-invasive anatomical, functional and molecular optical imaging of the skin in the clinics...(more)

Our research innovates hybrid methods combining thermoacoustic, optoacoustic and fluorescence imaging...(more)

Our group focuses on developing technology and applications on the combination of optical and optoacoustic microscopy in order to deliver contrast and imaging abilities not available in optical microscopes today. (more).

The group is centered around provision and development of cell lines and animal models for optoacoustic imaging. Our portfolio includes transgenic cancer cell lines stably expressing iRPF720 and tyrosinase (both labels provide good contrast in optoacoustic imaging), systems for retroviral gene transfer and various chemical labels for primary cells....(more)