A breakthrough in imaging technology promises to transform our understanding of the inner workings of living cells, and provide insights into a wide range of diseases. "It's like taking an airplane ...

In this article, the researchers introduce AO-FIDT, a novel long-term, high-spatiotemporal-resolution 3D fluorescence and intensity diffraction tomography microscopy technique. This method employs an ...

Scientists at the Center for Cell Dynamics, School of Biological and Behavioral Sciences, Queen Mary University of London, in collaboration with Carl Zeiss, have developed an innovative live-cell ...

Explore strategies for configuring multi-color fluorescence imaging systems to enhance imaging speed and experimental ...

The Incucyte® CX3 live cell analysis system enables real‑time observation of complex 3D cell models, delivering clear images, steady incubation conditions, and streamlined software for everyday ...

Single-cell functional analysis enables scientists to examine the unique characteristics of each cell within organs, tissues, and cell cultures. Unlike bulk-cell analysis, single-cell analysis allows ...

Apoptosis, or programmed cell death, is a tightly regulated biological process necessary for normal tissue maintenance and development. However, aberrations in apoptotic signaling networks are ...

A research team from the School of Engineering at The Hong Kong University of Science and Technology (HKUST) has achieved a breakthrough in brain imaging by developing the world's first technology to ...

A breakthrough in imaging technology promises to transform our understanding of the inner workings of living cells, and provide insights into a wide range of diseases. The study, recently published in ...