Evaluation of measures for assessing time-saving of automatic organ-at-risk segmentation in radiotherapy

F. Vaassen*, C. Hazelaar, A. Vaniqui, M. Gooding, B. van der Heyden, R. Canters, W. van Elmpt

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Background and purpose: In radiotherapy, automatic organ-at-risk segmentation algorithms allow faster delineation times, but clinically relevant contour evaluation remains challenging. Commonly used measures to assess automatic contours, such as volumetric Dice Similarity Coefficient (DSC) or Hausdorff distance, have shown to be good measures for geometric similarity, but do not always correlate with clinical applicability of the contours, or time needed to adjust them. This study aimed to evaluate the correlation of new and commonly used evaluation measures with time-saving during contouring.Materials and methods: Twenty lung cancer patients were used to compare user-adjustments after atlas-based and deep-learning contouring with manual contouring. The absolute time needed (s) of adjusting the auto-contour compared to manual contouring was recorded, from this relative time-saving (%) was calculated. New evaluation measures (surface DSC and added path length, APL) and conventional evaluation measures (volumetric DSC and Hausdorff distance) were correlated with time-recordings and time-savings, quantified with the Pearson correlation coefficient, R.Results: The highest correlation (R = 0.87) was found between APL and absolute adaption time. Lower correlations were found for APL with relative time-saving (R = -0.38), for surface DSC with absolute adaption time (R = -0.69) and relative time-saving (R = 0.57). Volumetric DSC and Hausdorff distance also showed lower correlation coefficients for absolute adaptation time (R = -0.32 and 0.64, respectively) and relative time-saving (R = 0.44 and -0.64, respectively).Conclusion: Surface DSC and APL are better indicators for contour adaptation time and time-saving when using auto-segmentation and provide more clinically relevant and better quantitative measures for automatically-generated contour quality, compared to commonly-used geometry-based measures.
Original languageEnglish
Pages (from-to)1-6
Number of pages6
JournalPhysics & Imaging in Radiation Oncology
Volume13
DOIs
Publication statusPublished - 1 Jan 2020

Keywords

  • Radiotherapy
  • Automatic delineation
  • Contouring time
  • Time-saving
  • Hausdorff distance
  • Dice similarity coefficient
  • Surface DSC
  • Added path length
  • VOLUME DELINEATION
  • ATLAS
  • HEAD

Fingerprint

Dive into the research topics of 'Evaluation of measures for assessing time-saving of automatic organ-at-risk segmentation in radiotherapy'. Together they form a unique fingerprint.

Cite this