Structured illumination microscopy (SIM) is the most preferable system for live-cell super-resolution imaging. It enables the observation of intricate subcellular dynamics. However, conventional SIM ...

Researchers have announced several major microscopy innovations that enhance resolution, sensitivity, and analytical capabilities for live biological imaging. Advances include AI-driven aberration ...

Understanding how living cells grow, respond to stimuli, and change over time is central to modern cell biology and drug discovery. Many traditional imaging approaches rely on fluorescent labels, ...

Using artificial intelligence, engineers at the University of California San Diego have developed a new way to watch the inner workings of living cells in real time. The process both captures images ...

Live cell imaging is a technique for studying living cells over time utilizing images captured by time-lapse microscopy. Celloger. Image Credit: Scintica Instrumentation Inc. Real-time imaging of ...

Figure | Working principle of Interferometric Image Scanning Microscopy (iISM). (a) Schematic of the iISM microscope and interferometric PSF detection. (b) iISM with adaptive pixel-reassignment (APR) ...

Christophe Leterrier uses advanced microscopy to uncover neurons’ intricate nanostructure and dynamics while creating ...

A robust, image-based neurotoxicity assay helps scientists streamline subcellular neuronal analysis with live-cell dyes and high-throughput automated microscopy. Neuronal cell culture models allow ...

Researchers are deploying advanced AI systems to dramatically improve scientific imaging, data analysis, and laboratory workflows. New techniques, such as UC San Diego’s AI-enhanced live-cell ...

This study presents MPALM, a novel microscopy technique that captures nanoscale biomolecular dynamics, overcoming limitations ...