arXiv:2501.14066v1 Announce Type: cross
Abstract: Purpose: The purpose of this study is to harness the efficiency of a 2D foundation model to develop a robust phase classifier that is resilient to domain shifts.
Materials and Methods: This retrospective study utilized three public datasets from separate institutions. A 2D foundation model was trained on the DeepLesion dataset (mean age: 51.2, s.d.: 17.6; 2398 males) to generate embeddings from 2D CT slices for downstream contrast phase classification. The classifier was trained on the VinDr Multiphase dataset and externally validated on the WAW-TACE dataset. The 2D model was also compared to three 3D supervised models.
Results: On the VinDr dataset (146 male, 63 female, 56 unidentified), the model achieved near-perfect AUROC scores and F1 scores of 99.2%, 94.2%, and 93.1% for non-contrast, arterial, and venous phases, respectively. The `Other’ category scored lower (F1: 73.4%) due to combining multiple contrast phases into one class. On the WAW-TACE dataset (mean age: 66.1, s.d.: 10.0; 185 males), the model showed strong performance with AUROCs of 91.0% and 85.6%, and F1 scores of 87.3% and 74.1% for non-contrast and arterial phases. Venous phase performance was lower, with AUROC and F1 scores of 81.7% and 70.2% respectively, due to label mismatches. Compared to 3D supervised models, the approach trained faster, performed as well or better, and showed greater robustness to domain shifts.
Conclusion: The robustness of the 2D Foundation model may be potentially useful for automation of hanging protocols and data orchestration for clinical deployment of AI algorithms.
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