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Review
. 2020 Oct;38(10):2359-2366.
doi: 10.1007/s00345-019-03037-6. Epub 2019 Nov 27.

Artificial intelligence and robotics: a combination that is changing the operating room

Iulia Andras  1   2 Elio Mazzone  1   3   4 Fijs W B van Leeuwen  1   5   6 Geert De Naeyer  1   3 Matthias N van Oosterom  5   6 Sergi Beato  1 Tessa Buckle  5 Shane O'Sullivan  7 Pim J van Leeuwen  6 Alexander Beulens  8   9 Nicolae Crisan  2 Frederiek D'Hondt  1   3 Peter Schatteman  1   3 Henk van Der Poel  6 Paolo Dell'Oglio  10   11   12   13 Alexandre Mottrie  1   3
Affiliations
Review

Artificial intelligence and robotics: a combination that is changing the operating room

Iulia Andras et al. World J Urol. 2020 Oct.

Abstract

Purpose: The aim of the current narrative review was to summarize the available evidence in the literature on artificial intelligence (AI) methods that have been applied during robotic surgery.

Methods: A narrative review of the literature was performed on MEDLINE/Pubmed and Scopus database on the topics of artificial intelligence, autonomous surgery, machine learning, robotic surgery, and surgical navigation, focusing on articles published between January 2015 and June 2019. All available evidences were analyzed and summarized herein after an interactive peer-review process of the panel.

Literature review: The preliminary results of the implementation of AI in clinical setting are encouraging. By providing a readout of the full telemetry and a sophisticated viewing console, robot-assisted surgery can be used to study and refine the application of AI in surgical practice. Machine learning approaches strengthen the feedback regarding surgical skills acquisition, efficiency of the surgical process, surgical guidance and prediction of postoperative outcomes. Tension-sensors on the robotic arms and the integration of augmented reality methods can help enhance the surgical experience and monitor organ movements.

Conclusions: The use of AI in robotic surgery is expected to have a significant impact on future surgical training as well as enhance the surgical experience during a procedure. Both aim to realize precision surgery and thus to increase the quality of the surgical care. Implementation of AI in master-slave robotic surgery may allow for the careful, step-by-step consideration of autonomous robotic surgery.

Keywords: Artificial intelligence; Autonomous surgery; Machine learning; Robotic surgery; Surgical navigation.

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