Chest tomosynthesis deblurring using CNN with deconvolution layer for vertebrae segmentation

Author:

Choi Yunsu1,Jang Hanjoo1,Baek Jongduk2

Affiliation:

1. School of Integrated Technology Yonsei University Incheon South Korea

2. Department of Artificial Intelligence, College of Computing Yonsei University Incheon South Korea

Abstract

AbstractBackgroundLimited scan angles cause severe distortions and artifacts in reconstructed tomosynthesis images when the Feldkamp‐Davis‐Kress (FDK) algorithm is used for the purpose, which degrades clinical diagnostic performance. These blurring artifacts are fatal in chest tomosynthesis images because precise vertebrae segmentation is crucial for various diagnostic analyses, such as early diagnosis, surgical planning, and injury detection. Moreover, because most spinal pathologies are related to vertebral conditions, the development of methods for accurate and objective vertebrae segmentation in medical images is an important and challenging research area.PurposeThe existing point‐spread‐function‐(PSF)‐based deblurring methods use the same PSF in all sub‐volumes without considering the spatially varying property of tomosynthesis images. This increases the PSF estimation error, thus further degrading the deblurring performance. However, the proposed method estimates the PSF more accurately by using sub‐CNNs that contain a deconvolution layer for each sub‐system, which improves the deblurring performance.MethodsTo minimize the effect of the spatially varying property, the proposed deblurring network architecture comprises four modules: (1) block division module, (2) partial PSF module, (3) deblurring block module, and (4) assembling block module. We compared the proposed DL‐based method with the FDK algorithm, total‐variation iterative reconstruction with GP‐BB (TV‐IR), 3D U‐Net, FBPConvNet, and two‐phase deblurring method. To investigate the deblurring performance of the proposed method, we evaluated its vertebrae segmentation performance by comparing the pixel accuracy (PA), intersection‐over‐union (IoU), and F‐score values of reference images to those of the deblurred images. Also, pixel‐based evaluations of the reference and deblurred images were performed by comparing their root mean squared error (RMSE) and visual information fidelity (VIF) values. In addition, 2D analysis of the deblurred images were performed by artifact spread function (ASF) and full width half maximum (FWHM) of the ASF curve.ResultsThe proposed method was able to recover the original structure significantly, thereby further improving the image quality. The proposed method yielded the best deblurring performance in terms of vertebrae segmentation and similarity. The IoU, F‐score, and VIF values of the chest tomosynthesis images reconstructed using the proposed SV method were 53.5%, 28.7%, and 63.2% higher, respectively, than those of the images reconstructed using the FDK method, and the RMSE value was 80.3% lower. These quantitative results indicate that the proposed method can effectively restore both the vertebrae and the surrounding soft tissue.ConclusionsWe proposed a chest tomosynthesis deblurring technique for vertebrae segmentation by considering the spatially varying property of tomosynthesis systems. The results of quantitative evaluations indicated that the vertebrae segmentation performance of the proposed method was better than those of the existing deblurring methods.

Funder

Ministry of Science and ICT, South Korea

Publisher

Wiley

Subject

General Medicine

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