Discrepancy-based diffusion models for lesion detection in brain MRI
Discrepancy-based diffusion models for lesion detection in brain MRI
Diffusion probabilistic models (DPMs) have exhibited significant effectiveness in computer vision tasks, particularly in image generation. However, their notable performance heavily relies on labelled datasets, which limits their application in medical images due to the associated high-cost annotations. Current DPM-related methods for lesion detection in medical imaging, which can be categorized into two distinct approaches, primarily rely on image-level annotations. The first approach, based on anomaly detection, involves learning reference healthy brain representations and identifying anomalies based on the difference in inference results. In contrast, the second approach, resembling a segmentation task, employs only the original brain multi-modalities as prior information for generating pixel-level annotations. In this paper, our proposed model – discrepancy distribution medical diffusion (DDMD) – for lesion detection in brain MRI introduces a novel framework by incorporating distinctive discrepancy features, deviating from the conventional direct reliance on image-level annotations or the original brain modalities. In our method, the inconsistency in image-level annotations is translated into distribution discrepancies among heterogeneous samples while preserving information within homogeneous samples. This property retains pixel-wise uncertainty and facilitates an implicit ensemble of segmentation, ultimately enhancing the overall detection performance. Thorough experiments conducted on the BRATS2020 benchmark dataset containing multimodal MRI scans for brain tumour detection demonstrate the great performance of our approach in comparison to state-of-the-art methods.
Anomaly detection, Brain MRI, Diffusion probabilistic model, Segmentation
Fan, Keqiang
0b1613e0-0167-425e-9ab9-986054928dd2
Cai, Xiaohao
de483445-45e9-4b21-a4e8-b0427fc72cee
Niranjan, Mahesan
5cbaeea8-7288-4b55-a89c-c43d212ddd4f
31 August 2024
Fan, Keqiang
0b1613e0-0167-425e-9ab9-986054928dd2
Cai, Xiaohao
de483445-45e9-4b21-a4e8-b0427fc72cee
Niranjan, Mahesan
5cbaeea8-7288-4b55-a89c-c43d212ddd4f
Fan, Keqiang, Cai, Xiaohao and Niranjan, Mahesan
(2024)
Discrepancy-based diffusion models for lesion detection in brain MRI.
Computers in Biology and Medicine, 181, [109079].
(doi:10.1016/j.compbiomed.2024.109079).
Abstract
Diffusion probabilistic models (DPMs) have exhibited significant effectiveness in computer vision tasks, particularly in image generation. However, their notable performance heavily relies on labelled datasets, which limits their application in medical images due to the associated high-cost annotations. Current DPM-related methods for lesion detection in medical imaging, which can be categorized into two distinct approaches, primarily rely on image-level annotations. The first approach, based on anomaly detection, involves learning reference healthy brain representations and identifying anomalies based on the difference in inference results. In contrast, the second approach, resembling a segmentation task, employs only the original brain multi-modalities as prior information for generating pixel-level annotations. In this paper, our proposed model – discrepancy distribution medical diffusion (DDMD) – for lesion detection in brain MRI introduces a novel framework by incorporating distinctive discrepancy features, deviating from the conventional direct reliance on image-level annotations or the original brain modalities. In our method, the inconsistency in image-level annotations is translated into distribution discrepancies among heterogeneous samples while preserving information within homogeneous samples. This property retains pixel-wise uncertainty and facilitates an implicit ensemble of segmentation, ultimately enhancing the overall detection performance. Thorough experiments conducted on the BRATS2020 benchmark dataset containing multimodal MRI scans for brain tumour detection demonstrate the great performance of our approach in comparison to state-of-the-art methods.
Text
Discrepancy-based Diffusion Models for Lesion Detection in Brain MRI
- Accepted Manuscript
More information
Accepted/In Press date: 23 August 2024
e-pub ahead of print date: 31 August 2024
Published date: 31 August 2024
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Publisher Copyright:
© 2024 Elsevier Ltd
Keywords:
Anomaly detection, Brain MRI, Diffusion probabilistic model, Segmentation
Identifiers
Local EPrints ID: 498030
URI: http://eprints.soton.ac.uk/id/eprint/498030
ISSN: 0010-4825
PURE UUID: 01462cbc-cdb8-440d-91af-7b00347c4bf2
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Date deposited: 06 Feb 2025 17:34
Last modified: 31 Aug 2025 04:01
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Contributors
Author:
Keqiang Fan
Author:
Xiaohao Cai
Author:
Mahesan Niranjan
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