Researchers from the Massachusetts Institute of Technology (MIT) Department of Brain and Cognitive Sciences have recently developed a new way to obtain high-resolution images of tissue samples using ...

Microscopy continues to transform the life sciences. Here are five recent breakthroughs made possible by the technique.

Both for research and medical purposes, researchers have spent decades pushing the limits of microscopy to produce ever deeper and sharper images of brain activity, not only in the cortex but also in ...

Microscopes are an important tool in biomedical research as it allows for detailed observation and imaging of tissues. Since biological materials are opaque by their nature, severe light scattering ...

Both for research and medical purposes, researchers have spent decades pushing the limits of microscopy to produce ever deeper and sharper images of brain activity, not only in the cortex but also in ...

Researchers at the Broad Institute of MIT and Harvard have developed a new way of mapping cell populations and visualizing how biomolecules, including different sequences of DNA and RNA, are organized ...

Mid‐infrared chemical imaging is a quantitative, non‐destructive microscopy method that can be used to visualize a variety of intrinsic biochemical markers in cells, tissues and biofluids, without any ...

Researchers have developed a compact handheld imaging probe that could expand the clinical and research use of photoacoustic ...

The advanced imaging approach could enable scientists to observe glioblastoma tumour cells within their microenvironment in the white matter – a capability currently lacking and crucial to ...

A new holographic microscope allows scientists to see through the skull and image the brain. The new label-free deep-tissue imaging with the wave correction algorithm retrieves the fine neural network ...