Case Western Reserve University biomedical researchers develop first open-source, quality-control review tool for fast-growing digital pathology field There’s a low-tech problem troubling the ...

A new imaging technology can distinguish cancerous tissue from healthy cells by detecting ultra-weak light signals. It relies ...

Scientists have come together to present a new way to observe the brain's structure and dynamics -- in a high resolution and without damaging the tissue. Brain tissue is one of the most intricate ...

One of the most challenging aspects of imaging mammalian tissues is how to handle their diverse composition. The human body is comprised of hundreds of known cell types, with immeasurably more to be ...

Papilio5D is an advanced light-sheet microscope that delivers fast, gentle, and high-resolution imaging for live samples.

Biomedical and genetic engineers at Duke University and the Albert Einstein College of Medicine have developed a technique that naturally increases the presence of a light-sensitive molecule ...

A new technique offers a way to gather and organize highly detailed information about organic tissues in real-time. Detailed in a pair of papers published in Nature Methods and Cell Reports Methods, ...

Cancer imaging is entering a phase where malignant cells no longer hide in murky grayscale but flare into view with surgical ...

Researchers at Caltech make progress in medical imaging by adapting astronomical optics. A reflector shapes light waves to counterbalance distortion. Researchers in Caltech’s Andrew and Peggy Cherng ...

Brain tissue is one of the most intricate specimens that scientists have arguably ever dealt with. Packed with currently immeasurable amount of information, the human brain is the most sophisticated ...