Tensor Gradient L₀-Norm Minimization-Based Low-Dose CT and Its Application to COVID-19.
Weiwen WuJun ShiHengyong YuWeifei WuVarut VardhanabhutiPublished in: IEEE transactions on instrumentation and measurement (2021)
Methods to recover high-quality computed tomography (CT) images in low-dose cases will be of great benefit. To reach this goal, sparse-data subsampling is one of the common strategies to reduce radiation dose, which is attracting interest among the researchers in the CT community. Since analytic image reconstruction algorithms may lead to severe image artifacts, the iterative algorithms have been developed for reconstructing images from sparsely sampled projection data. In this study, we first develop a tensor gradient L 0 -norm minimization (TGLM) for low-dose CT imaging. Then, the TGLM model is optimized by using the split-Bregman method. The Coronavirus Disease 2019 (COVID-19) has been sweeping the globe, and CT imaging has been deployed for detection and assessing the severity of the disease. Finally, we first apply our proposed TGLM method for COVID-19 to achieve low-dose scan by incorporating the 3-D spatial information. Two COVID-19 patients (64 years old female and 56 years old man) were scanned by the [Formula: see text]CT 528 system, and the acquired projections were retrieved to validate and evaluate the performance of the TGLM.
Keyphrases
- image quality
- computed tomography
- low dose
- dual energy
- coronavirus disease
- contrast enhanced
- deep learning
- sars cov
- positron emission tomography
- high dose
- machine learning
- magnetic resonance imaging
- high resolution
- big data
- healthcare
- convolutional neural network
- respiratory syndrome coronavirus
- optical coherence tomography
- artificial intelligence
- pet ct
- mental health
- smoking cessation
- mass spectrometry
- low birth weight
- human milk