we were able to observe the lipids within each individual cell using mass spectrometry imaging, directly visualize the cell by fluorescence microscopy, and also determine the surface shape of the ...

Beacon Discovery™ enables real-time functional investigation of single cells. Powered by optofluidic technology, it allows ...

An innovative imaging technique developed at Carnegie Mellon University reveals single bacterial cells leaving their biofilm community. Watching the bacteria in real-time at high resolution ...

Birmingham researchers are supporting a pioneering project to transform immune disease diagnosis and treatment using advanced ...

Kaizen rethinks cell segmentation by mimicking brain predictions. Using an iterative machine-learning approach to refine boundaries in crowded microscopy images, it enhances accuracy in tissue studies ...

Scientists created a camera thinner than human hair, flexible enough to bend with your movements, and capable of seeing ...

Researchers at Helmholtz Munich and the Technical University of Munich have developed a new microscope that significantly ...

By expanding the intact samples in all directions, researchers can use mass spectrometry imaging to simultaneously detect hundreds of molecules at the single cell level in their native locations.

By integrating advanced optofluidics, live single-cell imaging, functional cell biology, and multiomic data, we unravel complex biology to accelerate critical scientific discoveries and therapeutic ...

By making these retinal pigment epithelium (RPE) cells visible, researchers have created implications for early detection of ...