Scientific Reports (Jun 2022)

Machine learning-enabled cancer diagnostics with widefield polarimetric second-harmonic generation microscopy

  • Kamdin Mirsanaye,
  • Leonardo Uribe Castaño,
  • Yasmeen Kamaliddin,
  • Ahmad Golaraei,
  • Renaldas Augulis,
  • Lukas Kontenis,
  • Susan J. Done,
  • Edvardas Žurauskas,
  • Vuk Stambolic,
  • Brian C. Wilson,
  • Virginijus Barzda

DOI
https://doi.org/10.1038/s41598-022-13623-1
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 14

Abstract

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Abstract The extracellular matrix (ECM) collagen undergoes major remodeling during tumorigenesis. However, alterations to the ECM are not widely considered in cancer diagnostics, due to mostly uniform appearance of collagen fibers in white light images of hematoxylin and eosin-stained (H&E) tissue sections. Polarimetric second-harmonic generation (P-SHG) microscopy enables label-free visualization and ultrastructural investigation of non-centrosymmetric molecules, which, when combined with texture analysis, provides multiparameter characterization of tissue collagen. This paper demonstrates whole slide imaging of breast tissue microarrays using high-throughput widefield P-SHG microscopy. The resulting P-SHG parameters are used in classification to differentiate tumor from normal tissue, resulting in 94.2% for both accuracy and F1-score, and 6.3% false discovery rate. Subsequently, the trained classifier is employed to predict tumor tissue with 91.3% accuracy, 90.7% F1-score, and 13.8% false omission rate. As such, we show that widefield P-SHG microscopy reveals collagen ultrastructure over large tissue regions and can be utilized as a sensitive biomarker for cancer diagnostics and prognostics studies.