Predicting dark-field images of H&amp;E-stained esophageal specimens

Berfin Arli; Berfin Arli; Omer Faruk Dinc; Omer Faruk Dinc; Merve Burhan Turker; Merve Burhan Turker; Serhat Tozburun; Serhat Tozburun; Serhat Tozburun

doi:10.1117/12.2672202

Advances in Microscopic Imaging IV
Technical Digest Series (Optica Publishing Group, 2023),
paper 1263017
•https://doi.org/10.1117/12.2672202

Predicting dark-field images of H&E-stained esophageal specimens

Berfin Arli, Omer Faruk Dinc, Merve Burhan Turker, and Serhat Tozburun

European Conference on Biomedical Optics 2023

Munich Germany
25–29 June 2023
ISBN: 9781510664692

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Poster Session (PS12630)

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B. Arli, O. F. Dinc, M. B. Turker, and S. Tozburun, "Predicting dark-field images of H&E-stained esophageal specimens," in Advances in Microscopic Imaging IV, Technical Digest Series (Optica Publishing Group, 2023), paper 1263017.

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Abstract

The potential of laser-induced thermal therapy can be reassessed in treating abnormal mucosal tissues with advances in fiber optics, diode laser technology, and optical imaging modalities. In this context, studies optimizing a large parameter matrix (e.g., laser power, surface scanning speed, beam diameter, and irradiation duration) may be of interest. This study presents an artificial intelligence algorithm utilizing a generative adversarial network that predicts dark-field microscopy images from bright-field images of H&E-stained esophageal specimens. The calculated structural similarity index measurement between ground truth and the predicted dark-field image reaches an average of 74%. Also, the mean squared error is 0.7%.

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