Optical phantoms and tissue-mimicking materials have emerged as essential tools in the validation, calibration and optimisation of biomedical imaging systems. By replicating the optical and sometimes ...

Imaging technology has transformed how we observe the universe—from mapping distant galaxies with radio telescope arrays to ...

The microimager, composed of a dense array of flexible optical waveguides along an implantable thin-film shank, relays pixelized fluorescent images of protein-tagged neurons to the image sensor. The ...

Researchers have developed an extremely thin, flexible imager that could be useful for noninvasively acquiring images from inside the body. The new technology could one day enable early and precise ...

A team develops an ultrasensitive broadband transparent ultrasound transducer. The 'ultrasound-photoacoustic dual-modal imaging system' combines molecular imaging contrast with ultrasound imaging, and ...

PITTSBURGH — Scientists have created a camera so small it’s thinner than a human hair, flexible enough to bend with your movements, and capable of seeing deep inside living brain tissue without ...

Case Western Reserve University is a world leader in developing novel biomedical imaging technologies for translational and basic science applications. Research programs in imaging serve as the ...

Microendoscopes are the cornerstone of modern medical diagnostics - they allow us to see what we could not even describe two decades ago. The technology is constantly improving, with ICTER scientists ...

The discovery of nanoparticles has significantly impacted many fields of science. Nanoparticles, with their unique properties due to their small size and large surface-area-to-volume ratio, have ...

Researchers have developed an extremely thin, flexible imager that could be useful for noninvasively acquiring images from inside the body. (Nanowerk News) Researchers have developed an extremely thin ...