English

Identifying and Categorizing Anomalies in Retinal Imaging Data

Machine Learning 2016-12-05 v1 Computer Vision and Pattern Recognition

Abstract

The identification and quantification of markers in medical images is critical for diagnosis, prognosis and management of patients in clinical practice. Supervised- or weakly supervised training enables the detection of findings that are known a priori. It does not scale well, and a priori definition limits the vocabulary of markers to known entities reducing the accuracy of diagnosis and prognosis. Here, we propose the identification of anomalies in large-scale medical imaging data using healthy examples as a reference. We detect and categorize candidates for anomaly findings untypical for the observed data. A deep convolutional autoencoder is trained on healthy retinal images. The learned model generates a new feature representation, and the distribution of healthy retinal patches is estimated by a one-class support vector machine. Results demonstrate that we can identify pathologic regions in images without using expert annotations. A subsequent clustering categorizes findings into clinically meaningful classes. In addition the learned features outperform standard embedding approaches in a classification task.

Keywords

Cite

@article{arxiv.1612.00686,
  title  = {Identifying and Categorizing Anomalies in Retinal Imaging Data},
  author = {Philipp Seeböck and Sebastian Waldstein and Sophie Klimscha and Bianca S. Gerendas and René Donner and Thomas Schlegl and Ursula Schmidt-Erfurth and Georg Langs},
  journal= {arXiv preprint arXiv:1612.00686},
  year   = {2016}
}

Comments

Extended Abstract, Accepted for NIPS 2016 Workshop "Machine Learning for Health"

R2 v1 2026-06-22T17:11:44.239Z