Related papers: Cross Modality Medical Image Synthesis for Improving Liver Segmentation

Cross Modality Medical Image Synthesis for Improving Liver Segmentation

URL: http://arxiv.org/abs/2503.00945v1
Date: Sun, 02 Mar 2025 15:54:12 GMT
Title: Cross Modality Medical Image Synthesis for Improving Liver Segmentation
Authors: Muhammad Rafiq, Hazrat Ali, Ghulam Mujtaba, Zubair Shah, Shoaib Azmat,
Abstract summary: Generative Adversarial Networks (GANs) can be used to generate new cross-domain images without paired training data.<n>We propose a two-stage technique for the synthesis of abdominal MRI using cross-modality translation of abdominal CT.<n>We show that the synthetic data can help improve the performance of the liver segmentation network.
Score: 1.7295922486064903
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Deep learning-based computer-aided diagnosis (CAD) of medical images requires large datasets. However, the lack of large publicly available labeled datasets limits the development of deep learning-based CAD systems. Generative Adversarial Networks (GANs), in particular, CycleGAN, can be used to generate new cross-domain images without paired training data. However, most CycleGAN-based synthesis methods lack the potential to overcome alignment and asymmetry between the input and generated data. We propose a two-stage technique for the synthesis of abdominal MRI using cross-modality translation of abdominal CT. We show that the synthetic data can help improve the performance of the liver segmentation network. We increase the number of abdominal MRI images through cross-modality image transformation of unpaired CT images using a CycleGAN inspired deformation invariant network called EssNet. Subsequently, we combine the synthetic MRI images with the original MRI images and use them to improve the accuracy of the U-Net on a liver segmentation task. We train the U-Net on real MRI images and then on real and synthetic MRI images. Consequently, by comparing both scenarios, we achieve an improvement in the performance of U-Net. In summary, the improvement achieved in the Intersection over Union (IoU) is 1.17%. The results show potential to address the data scarcity challenge in medical imaging.

Related papers

MRGen: Segmentation Data Engine For Underrepresented MRI Modalities [59.61465292965639]
Training medical image segmentation models for rare yet clinically significant imaging modalities is challenging due to the scarcity of annotated data. This paper investigates leveraging generative models to synthesize training data, to train segmentation models for underrepresented modalities.
arXiv Detail & Related papers (2024-12-04T16:34:22Z)
Deformation-aware GAN for Medical Image Synthesis with Substantially Misaligned Pairs [0.0]
We propose a novel Deformation-aware GAN (DA-GAN) to dynamically correct the misalignment during the image synthesis based on inverse consistency. Experimental results show that DA-GAN achieved superior performance on a public dataset with simulated misalignments and a real-world lung MRI-CT dataset with respiratory motion misalignment.
arXiv Detail & Related papers (2024-08-18T10:29:35Z)
Synthetic Brain Images: Bridging the Gap in Brain Mapping With Generative Adversarial Model [0.0]
This work investigates the use of Deep Convolutional Generative Adversarial Networks (DCGAN) for producing high-fidelity and realistic MRI image slices. While the discriminator network discerns between created and real slices, the generator network learns to synthesise realistic MRI image slices. The generator refines its capacity to generate slices that closely mimic real MRI data through an adversarial training approach.
arXiv Detail & Related papers (2024-04-11T05:06:51Z)
SDR-Former: A Siamese Dual-Resolution Transformer for Liver Lesion Classification Using 3D Multi-Phase Imaging [59.78761085714715]
This study proposes a novel Siamese Dual-Resolution Transformer (SDR-Former) framework for liver lesion classification. The proposed framework has been validated through comprehensive experiments on two clinical datasets. To support the scientific community, we are releasing our extensive multi-phase MR dataset for liver lesion analysis to the public.
arXiv Detail & Related papers (2024-02-27T06:32:56Z)
Enhanced Synthetic MRI Generation from CT Scans Using CycleGAN with Feature Extraction [3.2088888904556123]
We propose an approach for enhanced monomodal registration using synthetic MRI images from CT scans. Our methodology shows promising results, outperforming several state-of-the-art methods.
arXiv Detail & Related papers (2023-10-31T16:39:56Z)
Recurrence With Correlation Network for Medical Image Registration [66.63200823918429]
We present Recurrence with Correlation Network (RWCNet), a medical image registration network with multi-scale features and a cost volume layer. We demonstrate that these architectural features improve medical image registration accuracy in two image registration datasets.
arXiv Detail & Related papers (2023-02-05T02:41:46Z)
Multi-scale Transformer Network with Edge-aware Pre-training for Cross-Modality MR Image Synthesis [52.41439725865149]
Cross-modality magnetic resonance (MR) image synthesis can be used to generate missing modalities from given ones. Existing (supervised learning) methods often require a large number of paired multi-modal data to train an effective synthesis model. We propose a Multi-scale Transformer Network (MT-Net) with edge-aware pre-training for cross-modality MR image synthesis.
arXiv Detail & Related papers (2022-12-02T11:40:40Z)
Negligible effect of brain MRI data preprocessing for tumor segmentation [36.89606202543839]
We conduct experiments on three publicly available datasets and evaluate the effect of different preprocessing steps in deep neural networks. Our results demonstrate that most popular standardization steps add no value to the network performance. We suggest that image intensity normalization approaches do not contribute to model accuracy because of the reduction of signal variance with image standardization.
arXiv Detail & Related papers (2022-04-11T17:29:36Z)
Enhancing MR Image Segmentation with Realistic Adversarial Data Augmentation [17.539828821476224]
We propose an adversarial data augmentation approach to improve the efficiency in utilizing training data. We present a generic task-driven learning framework, which jointly optimize a data augmentation model and a segmentation network during training. The proposed adversarial data augmentation does not rely on generative networks and can be used as a plug-in module in general segmentation networks.
arXiv Detail & Related papers (2021-08-07T11:32:37Z)
Adaptive Gradient Balancing for UndersampledMRI Reconstruction and Image-to-Image Translation [60.663499381212425]
We enhance the image quality by using a Wasserstein Generative Adversarial Network combined with a novel Adaptive Gradient Balancing technique. In MRI, our method minimizes artifacts, while maintaining a high-quality reconstruction that produces sharper images than other techniques.
arXiv Detail & Related papers (2021-04-05T13:05:22Z)
Self-Attentive Spatial Adaptive Normalization for Cross-Modality Domain Adaptation [9.659642285903418]
Cross-modality synthesis of medical images to reduce the costly annotation burden by radiologists. We present a novel approach for image-to-image translation in medical images, capable of supervised or unsupervised (unpaired image data) setups.
arXiv Detail & Related papers (2021-03-05T16:22:31Z)
Pathological Retinal Region Segmentation From OCT Images Using Geometric Relation Based Augmentation [84.7571086566595]
We propose improvements over previous GAN-based medical image synthesis methods by jointly encoding the intrinsic relationship of geometry and shape. The proposed method outperforms state-of-the-art segmentation methods on the public RETOUCH dataset having images captured from different acquisition procedures.
arXiv Detail & Related papers (2020-03-31T11:50:43Z)

This list is automatically generated from the titles and abstracts of the papers in this site.