Video-based surgical skill assessment using 3D convolutional neural networks

Isabel Funke¹, Sören Torge Mees², Jürgen Weitz², Stefanie Speidel³

Affiliations

¹ Division of Translational Surgical Oncology, National Center for Tumor Diseases (NCT), Partner Site Dresden, Dresden, Germany. Firstname.Lastname@nct-dresden.de.
² Department of Visceral, Thoracic and Vascular Surgery, Faculty of Medicine and University Hospital Carl Gustav Carus, TU Dresden, Dresden, Germany.
³ Division of Translational Surgical Oncology, National Center for Tumor Diseases (NCT), Partner Site Dresden, Dresden, Germany.

PMID: 31104257
DOI: 10.1007/s11548-019-01995-1

Video-based surgical skill assessment using 3D convolutional neural networks

Isabel Funke et al. Int J Comput Assist Radiol Surg. 2019 Jul.

. 2019 Jul;14(7):1217-1225.

doi: 10.1007/s11548-019-01995-1. Epub 2019 May 18.

Authors

Isabel Funke¹, Sören Torge Mees², Jürgen Weitz², Stefanie Speidel³

Affiliations

¹ Division of Translational Surgical Oncology, National Center for Tumor Diseases (NCT), Partner Site Dresden, Dresden, Germany. Firstname.Lastname@nct-dresden.de.
² Department of Visceral, Thoracic and Vascular Surgery, Faculty of Medicine and University Hospital Carl Gustav Carus, TU Dresden, Dresden, Germany.
³ Division of Translational Surgical Oncology, National Center for Tumor Diseases (NCT), Partner Site Dresden, Dresden, Germany.

PMID: 31104257
DOI: 10.1007/s11548-019-01995-1

Abstract

Purpose: A profound education of novice surgeons is crucial to ensure that surgical interventions are effective and safe. One important aspect is the teaching of technical skills for minimally invasive or robot-assisted procedures. This includes the objective and preferably automatic assessment of surgical skill. Recent studies presented good results for automatic, objective skill evaluation by collecting and analyzing motion data such as trajectories of surgical instruments. However, obtaining the motion data generally requires additional equipment for instrument tracking or the availability of a robotic surgery system to capture kinematic data. In contrast, we investigate a method for automatic, objective skill assessment that requires video data only. This has the advantage that video can be collected effortlessly during minimally invasive and robot-assisted training scenarios.

Methods: Our method builds on recent advances in deep learning-based video classification. Specifically, we propose to use an inflated 3D ConvNet to classify snippets, i.e., stacks of a few consecutive frames, extracted from surgical video. The network is extended into a temporal segment network during training.

Results: We evaluate the method on the publicly available JIGSAWS dataset, which consists of recordings of basic robot-assisted surgery tasks performed on a dry lab bench-top model. Our approach achieves high skill classification accuracies ranging from 95.1 to 100.0%.

Conclusions: Our results demonstrate the feasibility of deep learning-based assessment of technical skill from surgical video. Notably, the 3D ConvNet is able to learn meaningful patterns directly from the data, alleviating the need for manual feature engineering. Further evaluation will require more annotated data for training and testing.

Keywords: 3D convolutional neural network; Deep learning; Objective skill evaluation; Surgical motion; Surgical skill assessment; Technical surgical skill; Temporal segment network.

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Video-based surgical skill assessment using 3D convolutional neural networks

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Video-based surgical skill assessment using 3D convolutional neural networks

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