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Article Abstract
Precision medicine is critically dependent on better methods for diagnosing and staging disease and predicting drug response. Histopathology using hematoxylin and eosin (H&E)-stained tissue (not genomics) remains the primary diagnostic method in cancer. Recently developed highly multiplexed tissue imaging methods promise to enhance research studies and clinical practice with precise, spatially resolved single-cell data. Here, we describe the 'Orion' platform for collecting H&E and high-plex immunofluorescence images from the same cells in a whole-slide format suitable for diagnosis. Using a retrospective cohort of 74 colorectal cancer resections, we show that immunofluorescence and H&E images provide human experts and machine learning algorithms with complementary information that can be used to generate interpretable, multiplexed image-based models predictive of progression-free survival. Combining models of immune infiltration and tumor-intrinsic features achieves a 10- to 20-fold discrimination between rapid and slow (or no) progression, demonstrating the ability of multimodal tissue imaging to generate high-performance biomarkers.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10368530 | PMC |
| http://dx.doi.org/10.1038/s43018-023-00576-1 | DOI Listing |
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Article Synopsis
- - The study focuses on improving the analysis of high-content images from multiplexed microscopy to better understand cells within their native tissue, highlighting the need for stronger computational tools to interpret these complex images.
- - The authors introduce a new method called pseudo-spectral angle mapping (pSAM), which effectively classifies each pixel in high-plex images, enabling better identification of different cell types.
- - Results demonstrate that pSAM successfully classifies diverse cell types in datasets from colon and kidney biopsies, proving its effectiveness as a versatile tool for analyzing high-plex immunofluorescence data.