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Wavefront shaping is a promising approach to deep tissue imaging. Until now, it was possible only via an invasive approach: ...
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AI performs virtual tissue staining at super-resolutionTo overcome these limitations, "virtual staining" has emerged as a powerful computational tool that transforms images of ...
To date, images were taken using two key techniques. First, point-scanning multiphoton microscopy provides imaging that penetrates deep into a specimen and captures high-quality images, but the ...
Researchers developed a non-invasive imaging technique that enables laser light to penetrate deeper into living tissue, capturing sharper images of cells. This could help clinical biologists study ...
A new imaging device using Raman Spectral Projection Tomography offers non-destructive, detailed views of deep tissue structures. It could revolutionize cartilage and tissue transplants, reduce costs, ...
ETH researchers use artificial intelligence to improve quality of images recorded by a relatively new biomedical imaging method. This paves the way towards more accurate diagnosis and cost-effective ...
Tissue engineering combines engineering, biology, and materials science to create functional tissue constructs that can replace or repair damaged tissues, advancing regenerative medicine and drug ...
Microscopy technique makes finer images of deeper tissue, more quickly Researchers could rapidly obtain high-resolution images of blood vessels and neurons within the brain. Peer-Reviewed Publication ...
Thermo Fisher Scientific’s New Spatial Imaging System Enables Researchers to Generate High-quality Data, Making it Easier to Enter the Field of Spatial Tissue Proteomics ...
New imaging technique promises efficient, high-quality look inside living tissue to provide greater insight into biological processes.
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