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Decoding surgical proficiency and complexity: a machine learning framework for robotic herniorrhaphy.

Thomas H Shin1,2, Abeselom Fanta3, Fahri Gokcal4

  • 1Division of General Surgery, Department of Surgery, University of Virginia School of Medicine, 1300 Jefferson Park Avenue, Charlottesville, VA, 22903, USA. thomas.shin@uvahealth.org.

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|December 2, 2025
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Summary
This summary is machine-generated.

Objective performance indicators (OPIs) poorly predict surgical case complexity alone. However, their changes over time reveal surgeon skill acquisition, showing proficiency develops alongside increasing procedural difficulty in robotic ventral hernia repair.

Keywords:
Machine learningObjective performance indicatorsRobotic ventral hernia repair

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Area of Science:

  • Robotic surgery
  • Surgical education
  • Machine learning in medicine

Background:

  • Assessing surgical case complexity is crucial for operative planning and patient outcomes.
  • Current complexity metrics often overlook operator performance, relying on external clinical factors.
  • Robotic surgery offers novel, quantifiable performance data for surgical skill assessment.

Purpose of the Study:

  • To determine if objective performance indicators (OPIs) can predict case complexity in robotic ventral herniorrhaphy.
  • To explore how OPIs quantify surgical skill acquisition during this procedure.
  • To address the gap in understanding the relationship between OPIs, case complexity, and skill development.

Main Methods:

  • Analysis of OPI and clinical data from 561 robotic ventral hernia repairs.
  • Application of iterative ensemble machine learning models to predict case complexity.
  • Utilizing dimensional reduction and Euclidean distances to track skill evolution.

Main Results:

  • Machine learning models integrating clinical and OPI data achieved an F1 score of 0.87 for complexity prediction.
  • OPIs alone had an F1 score of 0.58 for complexity prediction.
  • Longitudinal OPI analysis showed stabilization within 10 months, indicating skill acquisition compensated for increasing complexity.

Conclusions:

  • OPIs alone are weak predictors of surgical case complexity.
  • Temporal OPI evolution effectively demonstrates surgical skill acquisition.
  • Digital metrics from robotic surgery provide insights into the interplay between surgeon learning and case difficulty.