Cancers (Jul 2022)

Comparative Multicentric Evaluation of Inter-Observer Variability in Manual and Automatic Segmentation of Neuroblastic Tumors in Magnetic Resonance Images

  • Diana Veiga-Canuto,
  • Leonor Cerdà-Alberich,
  • Cinta Sangüesa Nebot,
  • Blanca Martínez de las Heras,
  • Ulrike Pötschger,
  • Michela Gabelloni,
  • José Miguel Carot Sierra,
  • Sabine Taschner-Mandl,
  • Vanessa Düster,
  • Adela Cañete,
  • Ruth Ladenstein,
  • Emanuele Neri,
  • Luis Martí-Bonmatí

DOI
https://doi.org/10.3390/cancers14153648
Journal volume & issue
Vol. 14, no. 15
p. 3648

Abstract

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Tumor segmentation is one of the key steps in imaging processing. The goals of this study were to assess the inter-observer variability in manual segmentation of neuroblastic tumors and to analyze whether the state-of-the-art deep learning architecture nnU-Net can provide a robust solution to detect and segment tumors on MR images. A retrospective multicenter study of 132 patients with neuroblastic tumors was performed. Dice Similarity Coefficient (DSC) and Area Under the Receiver Operating Characteristic Curve (AUC ROC) were used to compare segmentation sets. Two more metrics were elaborated to understand the direction of the errors: the modified version of False Positive (FPRm) and False Negative (FNR) rates. Two radiologists manually segmented 46 tumors and a comparative study was performed. nnU-Net was trained-tuned with 106 cases divided into five balanced folds to perform cross-validation. The five resulting models were used as an ensemble solution to measure training (n = 106) and validation (n = 26) performance, independently. The time needed by the model to automatically segment 20 cases was compared to the time required for manual segmentation. The median DSC for manual segmentation sets was 0.969 (±0.032 IQR). The median DSC for the automatic tool was 0.965 (±0.018 IQR). The automatic segmentation model achieved a better performance regarding the FPRm. MR images segmentation variability is similar between radiologists and nnU-Net. Time leverage when using the automatic model with posterior visual validation and manual adjustment corresponds to 92.8%.

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