Frontiers in Cardiovascular Medicine (Jan 2022)

Generalizable Framework for Atrial Volume Estimation for Cardiac CT Images Using Deep Learning With Quality Control Assessment

  • Musa Abdulkareem,
  • Musa Abdulkareem,
  • Musa Abdulkareem,
  • Mark S. Brahier,
  • Fengwei Zou,
  • Alexandra Taylor,
  • Athanasios Thomaides,
  • Peter J. Bergquist,
  • Monvadi B. Srichai,
  • Aaron M. Lee,
  • Aaron M. Lee,
  • Jose D. Vargas,
  • Jose D. Vargas,
  • Steffen E. Petersen,
  • Steffen E. Petersen,
  • Steffen E. Petersen,
  • Steffen E. Petersen

DOI
https://doi.org/10.3389/fcvm.2022.822269
Journal volume & issue
Vol. 9

Abstract

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ObjectivesCardiac computed tomography (CCT) is a common pre-operative imaging modality to evaluate pulmonary vein anatomy and left atrial appendage thrombus in patients undergoing catheter ablation (CA) for atrial fibrillation (AF). These images also allow for full volumetric left atrium (LA) measurement for recurrence risk stratification, as larger LA volume (LAV) is associated with higher recurrence rates. Our objective is to apply deep learning (DL) techniques to fully automate the computation of LAV and assess the quality of the computed LAV values.MethodsUsing a dataset of 85,477 CCT images from 337 patients, we proposed a framework that consists of several processes that perform a combination of tasks including the selection of images with LA from all other images using a ResNet50 classification model, the segmentation of images with LA using a UNet image segmentation model, the assessment of the quality of the image segmentation task, the estimation of LAV, and quality control (QC) assessment.ResultsOverall, the proposed LAV estimation framework achieved accuracies of 98% (precision, recall, and F1 score metrics) in the image classification task, 88.5% (mean dice score) in the image segmentation task, 82% (mean dice score) in the segmentation quality prediction task, and R2 (the coefficient of determination) value of 0.968 in the volume estimation task. It correctly identified 9 out of 10 poor LAV estimations from a total of 337 patients as poor-quality estimates.ConclusionsWe proposed a generalizable framework that consists of DL models and computational methods for LAV estimation. The framework provides an efficient and robust strategy for QC assessment of the accuracy for DL-based image segmentation and volume estimation tasks, allowing high-throughput extraction of reproducible LAV measurements to be possible.

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