Low Dose Computed Tomography

Low-dose computed tomography (LDCT) aims to reduce radiation exposure during CT scans while maintaining diagnostic image quality. Current research heavily utilizes deep learning, employing architectures like U-Nets and transformers, often coupled with techniques such as denoising diffusion probabilistic models and iterative reconstruction algorithms incorporating regularization methods (e.g., total variation) to mitigate noise and artifacts inherent in low-dose scans. These advancements are crucial for improving patient safety and enabling wider access to CT imaging, particularly in applications requiring frequent or longitudinal scans. The field is also exploring self-supervised and unsupervised learning approaches to reduce reliance on large paired datasets of low- and normal-dose images.

Papers

October 29, 2024

Unsupervised Training of a Dynamic Context-Aware Deep Denoising Framework for Low-Dose Fluoroscopic Imaging
Sun-Young Jeon, Sen Wang, Adam S. Wang, Garry E. Gold, Jang-Hwan Choi
New Framework Context Aware Low Dose Low Dose Computed Tomography Unsupervised Training Denoising Performance Fluoroscopic Image

October 24, 2024

A Joint Representation Using Continuous and Discrete Features for Cardiovascular Diseases Risk Prediction on Chest CT Scans
Minfeng Xu, Chen-Chen Fan, Yan-Jie Zhou, Wenchao Guo, Pan Liu, Jing Qi, Le Lu, Hanqing Chao, Kunlun He
Disease Prediction Joint Representation Low Dose Computed Tomography Cardiovascular Disease Risk Chest Computed Tomography Cardiovascular Disease

October 23, 2024

Unsupervised Low-dose CT Reconstruction with One-way Conditional Normalizing Flows
Ran An, Ke Chen, Hongwei Li
Normalizing Flow Regularization Model Unsupervised Setting Conditional Reasoning Low Dose Computed Tomography

September 24, 2024

Deep convolutional framelets for dose reconstruction in BNCT with Compton camera detector
Angelo Didonna, Dayron Ramos Lopez, Giuseppe Iaselli, Nicola Amoroso, Nicola Ferrara, Gabriella Maria Incoronata Pugliese
Low Dose Computed Tomography Framelet Transform Neoadjuvant Chemotherapy

August 25, 2024

A Low-dose CT Reconstruction Network Based on TV-regularized OSEM Algorithm
Ran An, Yinghui Zhang, Xi Chen, Lemeng Li, Ke Chen, Hongwei Li
Regularization Technique Low Dose Low Dose Computed Tomography Total Variation

August 15, 2024

Learned denoising with simulated and experimental low-dose CT data
Maximilian B. Kiss, Ander Biguri, Carola-Bibiane Schönlieb, K. Joost Batenburg, Felix Lucka
Computed Tomography Reconstruction Low Dose Computed Tomography Computational Imaging CT Denoising

July 30, 2024

S3PET: Semi-supervised Standard-dose PET Image Reconstruction via Dose-aware Token Swap
Jiaqi Cui, Pinxian Zeng, Yuanyuan Xu, Xi Wu, Jiliu Zhou, Yan Wang
Semi Supervised Positron Emission Tomography Low Dose Computed Tomography Dose Positron Emission Tomography

May 27, 2024

Partitioned Hankel-based Diffusion Models for Few-shot Low-dose CT Reconstruction
Wenhao Zhang, Bin Huang, Shuyue Chen, Xiaoling Xu, Weiwen Wu, Qiegen Liu
Diffusion Model Low Dose Low Dose Computed Tomography Magic Cube Partition Iterative Reconstruction Diffusion Based Framework

April 15, 2024

WiTUnet: A U-Shaped Architecture Integrating CNN and Transformer for Improved Feature Alignment and Local Information Fusion
Bin Wang, Fei Deng, Peifan Jiang, Shuang Wang, Xiao Han, Zhixuan Zhang
Transformer Based CNN Architecture Feature Alignment Low Dose Low Dose Computed Tomography Skip Connection Global Local

March 18, 2024

WIA-LD2ND: Wavelet-based Image Alignment for Self-supervised Low-Dose CT Denoising
Haoyu Zhao, Yuliang Gu, Zhou Zhao, Bo Du, Yongchao Xu, Rui Yu
Self Supervised Multi Scale CT Image Low Dose Computed Tomography Image Alignment CT Denoising Self Supervised Medical

March 15, 2024

EAGLE: An Edge-Aware Gradient Localization Enhanced Loss for CT Image Reconstruction
Yipeng Sun, Yixing Huang, Linda-Sophie Schneider, Mareike Thies, Mingxuan Gu, Siyuan Mei, Siming Bayer, Andreas Maier
Loss Function Computed Tomography Reconstruction Low Dose Computed Tomography

March 10, 2024

Low-dose CT Denoising with Language-engaged Dual-space Alignment
Zhihao Chen, Tao Chen, Chenhui Wang, Chuang Niu, Ge Wang, Hongming Shan
Denoising Process Low Dose Low Dose Computed Tomography Denoising Model Scale Alignment

March 6, 2024

Low-Dose CT Image Reconstruction by Fine-Tuning a UNet Pretrained for Gaussian Denoising for the Downstream Task of Image Enhancement
Tim Selig, Thomas März, Martin Storath, Andreas Weinmann
Downstream Task Image Enhancement Computed Tomography Reconstruction Low Dose Computed Tomography

February 18, 2024

Evaluating Adversarial Robustness of Low dose CT Recovery
Kanchana Vaishnavi Gandikota, Paramanand Chandramouli, Hannah Droege, Michael Moeller
Deep Learning Adversarial Robustness Deep Network Low Dose Computed Tomography

December 19, 2023

Rotational Augmented Noise2Inverse for Low-dose Computed Tomography Reconstruction
Hang Xu, Alessandro Perelli
CT Image Low Dose Low Dose Computed Tomography Supervised Deep Learning

November 19, 2023

Enhancing Low-dose CT Image Reconstruction by Integrating Supervised and Unsupervised Learning
Ling Chen, Zhishen Huang, Yong Long, Saiprasad Ravishankar
Unsupervised Learning Image Reconstruction Reconstruction Network Low Dose Computed Tomography

November 14, 2023

MD-IQA: Learning Multi-scale Distributed Image Quality Assessment with Semi Supervised Learning for Low Dose CT
Tao Song, Ruizhi Hou, Lisong Dai, Lei Xiang
Semi Supervised Multi Scale Image Quality Image Quality Assessment Low Dose Computed Tomography

October 19, 2023

LoMAE: Low-level Vision Masked Autoencoders for Low-dose CT Denoising
Dayang Wang, Yongshun Xu, Shuo Han, Zhan Wu, Li Zhou, Bahareh Morovati, Hengyong Yu
Supervised Autoencoder Masked Autoencoders Low Dose Low Dose Computed Tomography Label Free

October 13, 2023

Privacy-Preserving Encrypted Low-Dose CT Denoising
Ziyuan Yang, Huijie Huangfu, Maosong Ran, Zhiwen Wang, Hui Yu, Yi Zhang
Homomorphic Encryption Private Data Low Dose Computed Tomography CT Denoising

October 10, 2023

Diffusion Prior Regularized Iterative Reconstruction for Low-dose CT
Wenjun Xia, Yongyi Shi, Chuang Niu, Wenxiang Cong, Ge Wang
Computed Tomography Diffusion Prior Computed Tomography Reconstruction Low Dose Computed Tomography High Fidelity Reconstruction Iterative Reconstruction Faster Diffusion

Low Dose Computed Tomography

Papers

Unsupervised Training of a Dynamic Context-Aware Deep Denoising Framework for Low-Dose Fluoroscopic Imaging

A Joint Representation Using Continuous and Discrete Features for Cardiovascular Diseases Risk Prediction on Chest CT Scans

Unsupervised Low-dose CT Reconstruction with One-way Conditional Normalizing Flows

Deep convolutional framelets for dose reconstruction in BNCT with Compton camera detector

A Low-dose CT Reconstruction Network Based on TV-regularized OSEM Algorithm

Learned denoising with simulated and experimental low-dose CT data

S3PET: Semi-supervised Standard-dose PET Image Reconstruction via Dose-aware Token Swap

Partitioned Hankel-based Diffusion Models for Few-shot Low-dose CT Reconstruction

WiTUnet: A U-Shaped Architecture Integrating CNN and Transformer for Improved Feature Alignment and Local Information Fusion

WIA-LD2ND: Wavelet-based Image Alignment for Self-supervised Low-Dose CT Denoising

EAGLE: An Edge-Aware Gradient Localization Enhanced Loss for CT Image Reconstruction

Low-dose CT Denoising with Language-engaged Dual-space Alignment

Low-Dose CT Image Reconstruction by Fine-Tuning a UNet Pretrained for Gaussian Denoising for the Downstream Task of Image Enhancement

Evaluating Adversarial Robustness of Low dose CT Recovery

Rotational Augmented Noise2Inverse for Low-dose Computed Tomography Reconstruction

Enhancing Low-dose CT Image Reconstruction by Integrating Supervised and Unsupervised Learning

MD-IQA: Learning Multi-scale Distributed Image Quality Assessment with Semi Supervised Learning for Low Dose CT

LoMAE: Low-level Vision Masked Autoencoders for Low-dose CT Denoising

Privacy-Preserving Encrypted Low-Dose CT Denoising

Diffusion Prior Regularized Iterative Reconstruction for Low-dose CT