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An End-to-End Platform for Digital Pathology Using Hyperspectral Autofluorescence Microscopy and Deep Learning-Based

Carson McNeil1, Pok Fai Wong1, Niranjan Sridhar1

  • 1Verily Life Sciences LLC, South San Francisco, California.

Modern Pathology : an Official Journal of the United States and Canadian Academy of Pathology, Inc
|November 5, 2023
PubMed
Summary
This summary is machine-generated.

This study introduces a new hyperspectral microscopy and deep learning workflow for pathology. It generates virtual stains from unstained tissue, matching real stains and enabling automated scoring for diseases like nonalcoholic steatohepatitis (NASH).

Keywords:
artificial intelligencedeep learninghyperspectral microscopymachine learningnonalcoholic steatohepatitisvirtual staining

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Area of Science:

  • Digital Pathology
  • Biomedical Imaging
  • Artificial Intelligence in Medicine

Background:

  • Conventional histopathology is costly, time-consuming, and consumes tissue samples.
  • Existing staining methods introduce variability and limit further analyses.
  • There is a need for efficient, cost-effective, and reproducible pathology workflows.

Purpose of the Study:

  • To develop an end-to-end automated pathology workflow using hyperspectral microscopy and deep learning.
  • To generate virtual histologic stains from unstained tissue autofluorescence.
  • To enable automated disease scoring and facilitate spatial biology research.

Main Methods:

  • Custom hyperspectral microscope developed for nondestructive imaging of unstained tissue autofluorescence.
  • Deep learning models trained to generate virtual stains from autofluorescence data.
  • Nonalcoholic steatohepatitis (NASH) scoring comparison study using real and virtual stains.
  • Development of deep learning models for automated NASH Clinical Research Network score prediction.

Main Results:

  • Virtual stains accurately reproduced histologic features seen in real-stained images.
  • Moderate-to-good concordance observed between pathologists' scoring of real and virtual stains.
  • Automated pathology platform demonstrated comparable performance to expert pathologists for NASH scoring.

Conclusions:

  • Hyperspectral microscopy combined with deep learning offers a viable virtual staining strategy.
  • This approach enhances cost-efficiency, reliability, and tissue sample conservation in pathology.
  • The platform shows potential for improving disease diagnosis and advancing spatial biology research.