Título: Development of a lung segmentation algorithm for analog imaged chest X-Ray: preliminary results
Autores: Matheus A. Renzo, Natália Fernandez, André A. Baceti, Natanael Nunes de Moura Junior and André Anjos
Resumo:
Analog X-Ray radiography is still used in many underdeveloped regions around the world. To allow these populations to benefit from advances in automatic computer-aided detection (CAD) systems, X-Ray films must be digitized. Unfortunately, this procedure may introduce artefacts which may severely impair the performance of such systems.
This work investigates the impact digitized images may cause to deep neural networks trained for lung (semantic) segmentation on digital x-ray samples. While three public datasets for lung segmentation evaluation exist for digital samples, none are available for digitized data. To this end, a U-Net architecture was trained on publicly available data, and used to predict lung segmentation on a newly annotated set of digitized images.
Our results show that the model is capable to effectively identify lung segmentation at digital X-Rays with a high intra-dataset (PR AUC: 0.99) and cross-dataset (PR AUC: 0.99) performances on unseen test data. When challenged against analog imaged films, the performance is substantially degraded (PR AUC: 0.90).
Our analysis further suggests that the use of maximum F1 and precision-recall AUC (PR AUC) measures are not informative to identify segmentation problems in images.
Palavras-chave:
Neural Network, U-Net, Lung Segmentation, Analog X-Ray.
Páginas: 8
Código DOI: 10.21528/CBIC2021-123
Artigo em pdf: CBIC_2021_paper_123.pdf
Arquivo BibTeX: CBIC_2021_123.bib