Charison Tay1, Ankur Khajuria2, Chinmay Gupte3. 1. Department of Surgery and Cancer/Musculoskeletal Laboratory, Imperial College London, Charing Cross Hospital, MSk Lab, 7th Floor, Lab Block, London W6 8RF, UK. Electronic address: charison.tay09@imperial.ac.uk. 2. Department of Surgery and Cancer/Musculoskeletal Laboratory, Imperial College London, Charing Cross Hospital, MSk Lab, 7th Floor, Lab Block, London W6 8RF, UK. 3. Department of Surgery and Cancer/Musculoskeletal Laboratory, Imperial College London, Charing Cross Hospital, MSk Lab, 7th Floor, Lab Block, London W6 8RF, UK; North West London Deanery Higher Surgical Rotation in Orthopaedics, UK.
Abstract
INTRODUCTION: Traditional orthopaedic training has followed an apprenticeship model whereby trainees enhance their skills by operating under guidance. However the introduction of limitations on training hours and shorter training programmes mean that alternative training strategies are required. AIMS: To perform a literature review on simulation training in arthroscopy and devise a framework that structures different simulation techniques that could be used in arthroscopic training. METHODS: A systematic search of Medline, Embase, Google Scholar and the Cochrane Databases were performed. Search terms included "virtual reality OR simulator OR simulation" and "arthroscopy OR arthroscopic". RESULTS: 14 studies evaluating simulators in knee, shoulder and hip arthroplasty were included. The majority of the studies demonstrated construct and transference validity but only one showed concurrent validity. More studies are required to assess its potential as a training and assessment tool, skills transference between simulators and to determine the extent of skills decay from prolonged delays in training. We also devised a "ladder of arthroscopic simulation" that provides a competency-based framework to implement different simulation strategies. CONCLUSION: The incorporation of simulation into an orthopaedic curriculum will depend on a coordinated approach between many bodies. But the successful integration of simulators in other areas of surgery supports a possible role for simulation in advancing orthopaedic education.
INTRODUCTION: Traditional orthopaedic training has followed an apprenticeship model whereby trainees enhance their skills by operating under guidance. However the introduction of limitations on training hours and shorter training programmes mean that alternative training strategies are required. AIMS: To perform a literature review on simulation training in arthroscopy and devise a framework that structures different simulation techniques that could be used in arthroscopic training. METHODS: A systematic search of Medline, Embase, Google Scholar and the Cochrane Databases were performed. Search terms included "virtual reality OR simulator OR simulation" and "arthroscopy OR arthroscopic". RESULTS: 14 studies evaluating simulators in knee, shoulder and hip arthroplasty were included. The majority of the studies demonstrated construct and transference validity but only one showed concurrent validity. More studies are required to assess its potential as a training and assessment tool, skills transference between simulators and to determine the extent of skills decay from prolonged delays in training. We also devised a "ladder of arthroscopic simulation" that provides a competency-based framework to implement different simulation strategies. CONCLUSION: The incorporation of simulation into an orthopaedic curriculum will depend on a coordinated approach between many bodies. But the successful integration of simulators in other areas of surgery supports a possible role for simulation in advancing orthopaedic education.
Authors: David Putzer; Dietmar Dammerer; Martina Baldauf; Florian Lenze; Michael C Liebensteiner; Michael Nogler Journal: Surg Innov Date: 2021-09-26 Impact factor: 1.785