Tissue microarray (TMA) technology has transformed colorectal cancer research by enabling simultaneous analysis of hundreds of tissue samples under uniform experimental conditions. In this approach, ...

Traditional histopathology, crucial for disease diagnosis, relies on chemically staining tissue samples to highlight cellular structures for microscopic examination by pathologists. This ...

Autopsy has a central role in shedding light on diseases, helping to uncover the cause of death. Tissue samples from various organs are sampled, stained, and examined under a light microscope to ...

New AI-driven tool converts common histology images into detailed, multi-layered cancer markers, promising faster, more accurate diagnostics and improved patient outcomes. Study: Accelerating ...

Tissue microarrays combines tens to hundreds of paraffin-embedded tissue cores into a single paraffin block. It is a practical and highly effective technique for high-throughput analyses of various ...

Researchers from the University of Eastern Finland, the University of Turku, and Tampere University have developed an artificial intelligence-based method for virtual staining of histopathological ...

Researchers from the University of Eastern Finland, the University of Turku, and Tampere University have developed an artificial intelligence-based method for virtual staining of histopathological ...

Breast cancer is one the leading causes of cancer death among women globally. Upon breast cancer diagnosis, the testing of HER2 – a protein that promotes cancer cell growth, is routinely carried out ...

If there's anyone who can appreciate tissue microarrays, it's histology technician Sabina Magedson. Having worked in a pathology laboratory at M.D. Anderson Cancer Center in Houston for years, ...

Leica Microsystems has announced the release of Tissue IA 2.0, high performance image analysis for discovery research. Combining fluorescence and brightfield analysis capabilities in a single platform ...