• DocumentCode
    1551204
  • Title

    Virtual surgery in a (tele-)radiology framework

  • Author

    Glombitza, Gerald ; Evers, Harald ; Hassfeld, Stefan ; Engelmann, Uwe ; Meinzer, Hans-Peter

  • Author_Institution
    Div. of Med. & Biol. Inf., Deutsches Krebsforschungszentrum, Heidelberg, Germany
  • Volume
    3
  • Issue
    3
  • fYear
    1999
  • Firstpage
    186
  • Lastpage
    196
  • Abstract
    Presents telemedicine as an extension of a teleradiology framework through tools for virtual surgery. To classify the described methods and applications, the research field of virtual reality (VR) is broadly reviewed. Differences with respect to technical equipment, methodological requirements and areas of application are pointed out. VR, desktop VR and augmented reality are differentiated and discussed in some typical contexts of diagnostic support, surgical planning, therapeutic procedures, simulation and training. Visualization techniques are compared as a prerequisite for VR and assigned to distinct levels of immersion. The advantage of a hybrid visualization kernel is emphasized with respect to the desktop VR applications that are subsequently shown. Moreover, software design aspects are considered by outlining functional openness in the architecture of the host system. A teleradiology workstation was extended by dedicated tools for surgical planning through a plug-in mechanism. Examples of recent areas of application are introduced, such as liver tumor resection planning, diagnostic support in heart surgery, and craniofacial surgery planning. In the future, surgical planning systems will become more important. They will benefit from improvements in image acquisition and communication, new image processing approaches and techniques for data presentation. This will facilitate pre-operative planning and intra-operative applications.
  • Keywords
    cardiology; data visualisation; liver; medical computing; radiology; surgery; telemedicine; tumours; virtual reality; visual communication; workstations; augmented reality; craniofacial surgery; data presentation; desktop virtual reality; diagnostic support; functionally open architecture; future; heart surgery; hybrid visualization kernel; image acquisition; image communication; image processing; immersion levels; intra-operative applications; liver tumor resection planning; methodological requirements; plug-in mechanism; pre-operative planning; simulation; software design; surgical planning; technical equipment; telemedicine; teleradiology framework; teleradiology workstation; therapeutic procedures; training; virtual surgery; Application software; Augmented reality; Computer architecture; Context modeling; Kernel; Software design; Surgery; Telemedicine; Virtual reality; Visualization; Surgical Procedures, Operative; Teleradiology; Therapy, Computer-Assisted;
  • fLanguage
    English
  • Journal_Title
    Information Technology in Biomedicine, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    1089-7771
  • Type

    jour

  • DOI
    10.1109/4233.788580
  • Filename
    788580