Immunohistochemistry (IHC) has continually evolved alongside technological and scientific advances. Because scientists constantly develop and modify their IHC techniques to better answer modern ...

Three-dimensional immunohistochemistry (3D-IHC) has transformed our ability to visualize the spatial arrangement of cells and molecules in intact tissues. However, traditional methods are often ...

Researchers from Lund University (Sweden) have investigated the tumor immune microenvironment of primary triple-negative breast cancer using digital image analysis of IHC-stained immune cells. To do ...

Immunohistochemistry (IHC) and immunofluorescence (IF) are well established, trusted applications for investigating protein detection and localization within cell and tissue preparations. However, ...

Three dimensional immunohistochemistry (3D-IHC) has transformed our ability to visualize the spatial arrangement of cells and molecules in intact tissues. However, traditional methods are often ...

Multiplexing IHC is a technique that is increasing in demand as more and more researchers and physicians are being tasked with doing more with less. With multiplexing, you have the advantage to view ...

Traditional immunohistochemistry (IHC) techniques, which are pivotal in diagnosing various cancers, require separate tissue sections for each stain, leading to increased costs, labor, and potential ...

This system used a cGAN architecture to design a virtual mIHC staining model that rapidly transforms label-free AF images (DAPI, FITC, TxRed, and Cy5) of tissue samples into their corresponding BF ...

A new nanobody-based method, POD-nAb/FT-GO 3D-IHC, enables ultra-fast, high-resolution labeling of neurons and glia deep within 1-mm-thick brain tissue, revealing cellular structures in just three ...