Abstract
Spinal X-ray effectively visualizes the overall spinal situation and vertebral details. However, X-ray is unsuitable for long-term follow-up or frequent monitoring due to its radiation hazard. Motivated by this, we propose a model named dual-decomposition radiograph synthesizer (DDRS) to predict the X-ray image of the present moment, given the previous X-ray image and a pair of three-dimensional spinal ultrasound data, for a practical and radiation-free evaluation of spinal deformity in follow-up or monitoring. The DDRS used a novel dual-decomposition strategy to ensure the quality of synthesized images. First, the DDRS innovatively converted the X-ray image synthesis into a fusion between the spinal pose and anatomical information. A parallel architecture was used to extract and aggregate the two information from ultrasound and X-ray images. Second, an intermodality calibration module and a global-local cooperated feature extractor are further introduced to implement our synthesis strategy effectively. The intermodality calibration module provides an accurate spinal pose description by correcting a potential pose difference during two image acquisition times. The global-local cooperated feature extractor contributes to preserving spinal anatomical information in the previous X-ray image by exploring global dependencies and highlighting local details. Extensive experiments were conducted on a real clinical dataset. Results show that a mean structural similarity (SSIM) of 0.89 was obtained between synthesized X-ray images provided by the DDRS and real ones, and further comparisons with existing outstanding image synthesizers also display a 17.1% improvement in mean SSIM, illustrating the potential of our synthesizer in a radiation-free follow-up of scoliosis.
Original language | English |
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Article number | 10366877 |
Pages (from-to) | 5784-5793 |
Number of pages | 10 |
Journal | IEEE Transactions on Industrial Informatics |
Volume | 20 |
Issue number | 4 |
DOIs | |
Publication status | Published - 1 Apr 2024 |
Keywords
- Dual-decomposition
- radiation-free follow-up
- scoliosis
- ultrasound
- X-ray image synthesis
ASJC Scopus subject areas
- Control and Systems Engineering
- Information Systems
- Computer Science Applications
- Electrical and Electronic Engineering