High-level prior-based loss functions for medical image segmentation: A survey

Rosana El Jurdi; Caroline Petitjean; Paul Honeine; Veronika Cheplygina; Fahed Abdallah

doi:10.1016/j.cviu.2021.103248

High-level prior-based loss functions for medical image segmentation: A survey

Rosana El Jurdi, Caroline Petitjean, Paul Honeine, Veronika Cheplygina, Fahed Abdallah

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Today, deep convolutional neural networks (CNNs) have demonstrated state of the art performance for supervised medical image segmentation, across various imaging modalities and tasks. Despite early success, segmentation networks may still generate anatomically aberrant segmentations, with holes or inaccuracies near the object boundaries. To mitigate this effect, recent research works have focused on incorporating spatial information or prior knowledge to enforce anatomically plausible segmentation. If the integration of prior knowledge in image segmentation is not a new topic in classical optimization approaches, it is today an increasing trend in CNN based image segmentation, as shown by the growing literature on the topic. In this survey, we focus on high level prior, embedded at the loss function level. We categorize the articles according to the nature of the prior: the object shape, size, topology, and the inter-regions constraints. We highlight strengths and limitations of current approaches, discuss the challenge related to the design and the integration of prior-based losses, and the optimization strategies, and draw future research directions.

Original language	English
Article number	103248
Journal	Computer Vision and Image Understanding
Volume	210
DOIs	https://doi.org/10.1016/j.cviu.2021.103248
Publication status	Published - Sept 2021
Externally published	Yes

Bibliographical note

Funding Information:
The authors would like to acknowledge the National Council for Scientific Research of Lebanon (CNRS-L) and the Agence Fran?aise de la Francophonie (AUF) for granting a doctoral fellowship to Rosana El Jurdi, as well as the ANR (project APi, grant ANR-18-CE23-0014). This work is part of the DAISI project, co-financed by the European Union with the European Regional Development Fund (ERDF) and by the Normandy Region. This research was conducted as part of a collaboration with the Eindhoven university of Technology under the support of the PHC Van Gogh project WeSmile.

Funding Information:
The authors would like to acknowledge the National Council for Scientific Research of Lebanon (CNRS-L) and the Agence Française de la Francophonie (AUF) for granting a doctoral fellowship to Rosana El Jurdi, as well as the ANR (project APi, grant ANR-18-CE23-0014). This work is part of the DAISI project, co-financed by the European Union with the European Regional Development Fund (ERDF) and by the Normandy Region. This research was conducted as part of a collaboration with the Eindhoven university of Technology under the support of the PHC Van Gogh project WeSmile.

Publisher Copyright:
© 2021 Elsevier Inc.

Keywords

Anatomical constraint losses
Convolutional neural networks
Deep learning
Medical image segmentation
Prior-based loss functions

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10.1016/j.cviu.2021.103248

Cite this

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title = "High-level prior-based loss functions for medical image segmentation: A survey",

abstract = "Today, deep convolutional neural networks (CNNs) have demonstrated state of the art performance for supervised medical image segmentation, across various imaging modalities and tasks. Despite early success, segmentation networks may still generate anatomically aberrant segmentations, with holes or inaccuracies near the object boundaries. To mitigate this effect, recent research works have focused on incorporating spatial information or prior knowledge to enforce anatomically plausible segmentation. If the integration of prior knowledge in image segmentation is not a new topic in classical optimization approaches, it is today an increasing trend in CNN based image segmentation, as shown by the growing literature on the topic. In this survey, we focus on high level prior, embedded at the loss function level. We categorize the articles according to the nature of the prior: the object shape, size, topology, and the inter-regions constraints. We highlight strengths and limitations of current approaches, discuss the challenge related to the design and the integration of prior-based losses, and the optimization strategies, and draw future research directions.",

keywords = "Anatomical constraint losses, Convolutional neural networks, Deep learning, Medical image segmentation, Prior-based loss functions",

author = "{El Jurdi}, Rosana and Caroline Petitjean and Paul Honeine and Veronika Cheplygina and Fahed Abdallah",

note = "Funding Information: The authors would like to acknowledge the National Council for Scientific Research of Lebanon (CNRS-L) and the Agence Fran?aise de la Francophonie (AUF) for granting a doctoral fellowship to Rosana El Jurdi, as well as the ANR (project APi, grant ANR-18-CE23-0014). This work is part of the DAISI project, co-financed by the European Union with the European Regional Development Fund (ERDF) and by the Normandy Region. This research was conducted as part of a collaboration with the Eindhoven university of Technology under the support of the PHC Van Gogh project WeSmile. Funding Information: The authors would like to acknowledge the National Council for Scientific Research of Lebanon (CNRS-L) and the Agence Fran{\c c}aise de la Francophonie (AUF) for granting a doctoral fellowship to Rosana El Jurdi, as well as the ANR (project APi, grant ANR-18-CE23-0014). This work is part of the DAISI project, co-financed by the European Union with the European Regional Development Fund (ERDF) and by the Normandy Region. This research was conducted as part of a collaboration with the Eindhoven university of Technology under the support of the PHC Van Gogh project WeSmile. Publisher Copyright: {\textcopyright} 2021 Elsevier Inc.",

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AU - Abdallah, Fahed

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N2 - Today, deep convolutional neural networks (CNNs) have demonstrated state of the art performance for supervised medical image segmentation, across various imaging modalities and tasks. Despite early success, segmentation networks may still generate anatomically aberrant segmentations, with holes or inaccuracies near the object boundaries. To mitigate this effect, recent research works have focused on incorporating spatial information or prior knowledge to enforce anatomically plausible segmentation. If the integration of prior knowledge in image segmentation is not a new topic in classical optimization approaches, it is today an increasing trend in CNN based image segmentation, as shown by the growing literature on the topic. In this survey, we focus on high level prior, embedded at the loss function level. We categorize the articles according to the nature of the prior: the object shape, size, topology, and the inter-regions constraints. We highlight strengths and limitations of current approaches, discuss the challenge related to the design and the integration of prior-based losses, and the optimization strategies, and draw future research directions.

AB - Today, deep convolutional neural networks (CNNs) have demonstrated state of the art performance for supervised medical image segmentation, across various imaging modalities and tasks. Despite early success, segmentation networks may still generate anatomically aberrant segmentations, with holes or inaccuracies near the object boundaries. To mitigate this effect, recent research works have focused on incorporating spatial information or prior knowledge to enforce anatomically plausible segmentation. If the integration of prior knowledge in image segmentation is not a new topic in classical optimization approaches, it is today an increasing trend in CNN based image segmentation, as shown by the growing literature on the topic. In this survey, we focus on high level prior, embedded at the loss function level. We categorize the articles according to the nature of the prior: the object shape, size, topology, and the inter-regions constraints. We highlight strengths and limitations of current approaches, discuss the challenge related to the design and the integration of prior-based losses, and the optimization strategies, and draw future research directions.

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High-level prior-based loss functions for medical image segmentation: A survey

Abstract

Bibliographical note

Keywords

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