Scientists at EPFL have developed CenSpark, a fluorescent probe that makes centrioles and cilia visible inside living cells, ...

Researchers from Albert Einstein College of Medicine and the Salk Institute have developed VIS-Fb probes, a new class of fluorescent nanobodies that light up only when bound to target proteins, ...

A cancer cell begins to die, and for the first time, a researcher can watch the exact moment it happens. New fluorescent dyes ...

Researchers created a human spinal cord organoid, injured it, then applied an experimental therapy. What happened next was ...

A new imaging approach developed through a collaboration between the University of Oxford and ZEISS is entering a ...

A South Korean research team has developed a microscopy technique that provides clear, simultaneous views of nerves and immune cells within the cornea without any injections. The technology is gaining ...

Abstract: Accurate cell counting is essential in various biomedical research and clinical applications, including cancer diagnosis, stem cell research, and immunology. Manual counting is ...

Abstract: This study presents an automated deep learning approach for evaluating acrosomal membrane integrity in bovine spermatozoa, a critical parameter for assessing semen quality in artificial ...

Recent advances in optical methods for biological sample characterization reflect a profound shift driven by the convergence of photonic innovation, computational intelligence, and increasing ...

Physically magnifying objects using a key moisture-absorbing ingredient in diapers has opened an unprecedented view of the microbial world. When you slip a slide under a microscope, a system of glass ...

FLIM principles. Schematic overview of fluorescence lifetime data acquisition and analysis in time−domain (td) and frequency−domain (fd) modes. In tdFLIM, photon arrival times are recorded after each ...