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Coli-Net: Deep Learning-Assisted Fully Automated Covid-19 Lung and Infection Pneumonia Lesion Detection and Segmentation From Chest Computed Tomography Images Publisher



Shiri I1 ; Arabi H1 ; Salimi Y1 ; Sanaat A1 ; Akhavanallaf A1 ; Hajianfar G2 ; Askari D3 ; Moradi S4 ; Mansouri Z1 ; Pakbin M5 ; Sandoughdaran S6 ; Abdollahi H7 ; Radmard AR8 ; Rezaeikalantari K2 Show All Authors
Authors
  1. Shiri I1
  2. Arabi H1
  3. Salimi Y1
  4. Sanaat A1
  5. Akhavanallaf A1
  6. Hajianfar G2
  7. Askari D3
  8. Moradi S4
  9. Mansouri Z1
  10. Pakbin M5
  11. Sandoughdaran S6
  12. Abdollahi H7
  13. Radmard AR8
  14. Rezaeikalantari K2
  15. Ghelich Oghli M4, 9
  16. Zaidi H1, 10, 11, 12

Source: International Journal of Imaging Systems and Technology Published:2022


Abstract

We present a deep learning (DL)-based automated whole lung and COVID-19 pneumonia infectious lesions (COLI-Net) detection and segmentation from chest computed tomography (CT) images. This multicenter/multiscanner study involved 2368 (347′259 2D slices) and 190 (17 341 2D slices) volumetric CT exams along with their corresponding manual segmentation of lungs and lesions, respectively. All images were cropped, resized, and the intensity values clipped and normalized. A residual network with non-square Dice loss function built upon TensorFlow was employed. The accuracy of lung and COVID-19 lesions segmentation was evaluated on an external reverse transcription-polymerase chain reaction positive COVID-19 dataset (7′333 2D slices) collected at five different centers. To evaluate the segmentation performance, we calculated different quantitative metrics, including radiomic features. The mean Dice coefficients were 0.98 ± 0.011 (95% CI, 0.98–0.99) and 0.91 ± 0.038 (95% CI, 0.90–0.91) for lung and lesions segmentation, respectively. The mean relative Hounsfield unit differences were 0.03 ± 0.84% (95% CI, −0.12 to 0.18) and −0.18 ± 3.4% (95% CI, −0.8 to 0.44) for the lung and lesions, respectively. The relative volume difference for lung and lesions were 0.38 ± 1.2% (95% CI, 0.16–0.59) and 0.81 ± 6.6% (95% CI, −0.39 to 2), respectively. Most radiomic features had a mean relative error less than 5% with the highest mean relative error achieved for the lung for the range first-order feature (−6.95%) and least axis length shape feature (8.68%) for lesions. We developed an automated DL-guided three-dimensional whole lung and infected regions segmentation in COVID-19 patients to provide fast, consistent, robust, and human error immune framework for lung and pneumonia lesion detection and quantification. © 2021 The Authors. International Journal of Imaging Systems and Technology published by Wiley Periodicals LLC.
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