Ertunç Erdil scite author profile

A key requirement for the success of supervised deep learning is a large labeled dataset -a condition that is difficult to meet in medical image analysis. Selfsupervised learning (SSL) can help in this regard by providing a strategy to pre-train a neural network with unlabeled data, followed by fine-tuning for a downstream task with limited annotations. Contrastive learning, a particular variant of SSL, is a powerful technique for learning image-level representations. In this work, we propose strategies for extending the contrastive learning framework for segmentation of volumetric medical images in the semi-supervised setting with limited annotations, by leveraging domain-specific and problem-specific cues. Specifically, we propose (1) novel contrasting strategies that leverage structural similarity across volumetric medical images (domain-specific cue) and (2) a local version of the contrastive loss to learn distinctive representations of local regions that are useful for per-pixel segmentation (problem-specific cue). We carry out an extensive evaluation on three Magnetic Resonance Imaging (MRI) datasets. In the limited annotation setting, the proposed method yields substantial improvements compared to other self-supervision and semi-supervised learning techniques. When combined with a simple data augmentation technique, the proposed method reaches within 8% of benchmark performance using only two labeled MRI volumes for training, corresponding to only 4% (for ACDC) of the training data used to train the benchmark.Preprint. Under review.

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Local contrastive loss with pseudo-label based self-training for semi-supervised medical image segmentation

Chaitanya

Erdil

Karani

et al. 2023

Medical Image Analysis

121

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Combining multiple clusterings using similarity graph

Mimaroglu

Erdil

2011

Pattern Recognition

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A joint classification and segmentation approach for dendritic spine segmentation in 2-photon microscopy images

Erdil

Argunşah

Taşdizen

et al. 2015

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Ertunç Erdil

Test-time adaptable neural networks for robust medical image segmentation

Contrastive learning of global and local features for medical image segmentation with limited annotations

Local contrastive loss with pseudo-label based self-training for semi-supervised medical image segmentation

Combining multiple clusterings using similarity graph

A joint classification and segmentation approach for dendritic spine segmentation in 2-photon microscopy images

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