Automated Deep Learning-Based 3D-to-2D Segmentation of Geographic Atrophy in Optical Coherence Tomography Data

  1. Hasenin Al-khersan
  2. Jonathan Oakley
  3. Daniel Russakoff
  4. Jessica Cao
  5. Stanley Saju
  6. Avery Zhou
  7. Simrat Sodhi
  8. Niveditha Pattathil
  9. Netan Choudhry
  10. David Boyer
  11. Charles Wykoff
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Abstract

Purpose

We report on a deep learning-based approach to the segmentation of geographic atrophy (GA) in patients with advanced age-related macular degeneration (AMD).

Method

Three-dimensional (3D) optical coherence tomography (OCT) data was collected from two instruments at two different retina practices. This totaled 367 and 348 volumes, respectively, of routinely collected clinical data. For all data, the accuracy of a 3D-to-2D segmentation model was assessed relative to ground-truth manual labeling.

Results

Dice Similarity Scores (DSC) averaged 0.824 and 0.826 for each data set. Correlations (r2) between manual and automated areas were 0.883 and 0.906, respectively. The inclusion of near Infra-red imagery as an additional information channel to the algorithm did not notably improve performance.

Conclusion

Accurate assessment of GA in real-world clinical OCT data can be achieved using deep learning. In the advent of therapeutics to slow the rate of GA progression, reliable, automated assessment is a clinical objective and this work validates one such method.

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