An advanced simulator for orthopedic surgical training View Full Text


Ontology type: schema:ScholarlyArticle     


Article Info

DATE

2017-12-08

AUTHORS

J. Cecil, Avinash Gupta, Miguel Pirela-Cruz

ABSTRACT

PurposeThe purpose of creating the virtual reality (VR) simulator is to facilitate and supplement the training opportunities provided to orthopedic residents. The use of VR simulators has increased rapidly in the field of medical surgery for training purposes. This paper discusses the creation of the virtual surgical environment (VSE) for training residents in an orthopedic surgical process called less invasive stabilization system (LISS) surgery which is used to address fractures of the femur.MethodThe overall methodology included first obtaining an understanding of the LISS plating process through interactions with expert orthopedic surgeons and developing the information centric models. The information centric models provided a structured basis to design and build the simulator. Subsequently, the haptic-based simulator was built. Finally, the learning assessments were conducted in a medical school.ResultsThe results from the learning assessments confirm the effectiveness of the VSE for teaching medical residents and students. The scope of the assessment was to ensure (1) the correctness and (2) the usefulness of the VSE. Out of 37 residents/students who participated in the test, 32 showed improvements in their understanding of the LISS plating surgical process. A majority of participants were satisfied with the use of teaching Avatars and haptic technology. A paired t test was conducted to test the statistical significance of the assessment data which showed that the data were statistically significant.ConclusionThis paper demonstrates the usefulness of adopting information centric modeling approach in the design and development of the simulator. The assessment results underscore the potential of using VR-based simulators in medical education especially in orthopedic surgery. More... »

PAGES

305-319

References to SciGraph publications

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  • 2000. Using UML Collaboration Diagrams for Static Checking and Test Generation in ≪UML≫ 2000 — THE UNIFIED MODELING LANGUAGE
  • 2013. An Information Model for Designing Virtual Environments for Orthopedic Surgery in ON THE MOVE TO MEANINGFUL INTERNET SYSTEMS: OTM 2013 WORKSHOPS
  • 2015-03-07. Haptic computer-assisted patient-specific preoperative planning for orthopedic fractures surgery in INTERNATIONAL JOURNAL OF COMPUTER ASSISTED RADIOLOGY AND SURGERY
  • 2008-12-24. A Novel Modeling Framework for Multilayered Soft Tissue Deformation in Virtual Orthopedic Surgery in JOURNAL OF MEDICAL SYSTEMS
  • 2011-02-04. Polygon-based 3D surgical planning system for hip operation in INTERNATIONAL JOURNAL OF PRECISION ENGINEERING AND MANUFACTURING
  • 2008-01-01. Towards a Medical Virtual Reality Environment for Minimally Invasive Cardiac Surgery in MEDICAL IMAGING AND AUGMENTED REALITY
  • 2001-12-10. Comparison of video trainer and virtual reality training systems on acquisition of laparoscopic skills in SURGICAL ENDOSCOPY
  • 2009-02-13. Haptics-based virtual reality periodontal training simulator in VIRTUAL REALITY
  • 2004. A Collaborative Virtual Environment for the Simulation of Temporal Bone Surgery in MEDICAL IMAGE COMPUTING AND COMPUTER-ASSISTED INTERVENTION – MICCAI 2004
  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1007/s11548-017-1688-0

    DOI

    http://dx.doi.org/10.1007/s11548-017-1688-0

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1099696599

    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/29222631


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