Deep Learning-Based Projection Extrapolation for Limited-Angle CBCT Reconstruction
Abstract
Purpose:Limited-angle CBCT reconstruction often suffers from incomplete projection data, resulting in severe wedge artifacts, image distortions, and reduced image quality. This study introduces a deep learning-based projection extrapolation filter to help high-quality CBCT image reconstruction from limited-angle data, aiming to mitigate artifacts and improve clinical usability.
Methods:This study developed a deep convolutional network based on the ResUNet architecture to extrapolate missing projection data. The training data are projections generated using TIGRE (Tomographic Iterative GPU-based Reconstruction Toolbox). The study simulates CBCT projections for 10 patients using TIGRE, generating projections over 180 degrees + fan angle (full-fan geometry) and 120 degrees (limited-angle geometry) to replicate real-world imaging conditions. Then the projections are resampled in angular dimension into a total of 7680 sinogram pairs (limited-angled and adequate-angled) that are randomly divided into training and validation sets in a 9:1 ratio with the remaining data reserved for testing. A ResUNet model is trained to extrapolate the limited-angled sinogram to adequate-angled sinogram. After the extrapolated data is resampled into projections, the final reconstruction was performed using the Feldkamp-Davis-Kress (FDK) algorithm. While focusing on reconstructed image quality and artifact reduction, performance metrics such as peak signal-to-noise ratio (PSNR), and structural similarity index measure (SSIM) were used to quantify image quality improvements. Simultaneous attention to reconstruction image quality and artifact reduction.
Results:The proposed method can effectively generate the extrapolated projections with reduced image artifacts. The quantitative results showed the PSNR (33.012) and loss (0.002) of the model, which indicated a superior performance. The reconstructed CBCT volumes demonstrate superior image quality compared CBCT reconstructed with conventional methods using limited-angle data, and significantly reduces image artifacts. supporting the potential of integration in real-time clinical workflows.
Conclusion:Our deep learning-based projection extrapolation filter enables artifact reduction in CBCT reconstruction from limited-angle data. The proposed method holds promise for improving CBCT imaging quality in applications such as image-guided radiotherapy. Our future work includes using updated models to further improve extrapolated image quality and clinical evaluation of the proposed technique is warranted.
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Liu, Yukun (2025). Deep Learning-Based Projection Extrapolation for Limited-Angle CBCT Reconstruction. Master's thesis, Duke University. Retrieved from https://hdl.handle.net/10161/32953.
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