Research presented by Professor Cecilia Johansson of Imperial College London has linked early type I interferon signalling in ...

Atomic defects in nanodiamonds enable both precise heating of lysosomes inside macrophages and nanoscale temperature ...

The Francis Crick Institute’s flow cytometry core has shown at ELRIG 2025 how a heterogeneous fleet of spectral, mass and imaging instruments, combined with deep in-house expertise, has enabled ...

Preclinical studies indicate that cavity-resident macrophages in the peritoneal and pleural spaces contribute to immunosuppression and cancer progression. While these macrophages typically accumulate ...

To investigate their recruitment, Gata6-iCreER mice were crossed with Cd45-Dre and R26-tdT mice, enabling specific lineage tracing of cavity macrophages. Flow cytometry and immunofluorescence ...

High-parameter (greater than 20-color) flow cytometry is increasingly adopted in clinical settings. It provides unparalleled capabilities for immunophenotypic characterization in the diagnosis of ...

Researchers developed and validated a label-free, non-invasive method combining AFM with deep learning for accurate profiling of human macrophage mechanophenotypes and rapid identification of their ...

A new leap in lab automation is shaking up how scientists discover materials. By switching from slow, traditional methods to real-time, dynamic chemical experiments, researchers have created a ...

Thinking Machines Lab, the secretive AI startup founded by OpenAI’s former chief technology officer Mira Murati, has closed a $2 billion seed round, according to The Financial Times. The deal values ...