VOXEL-MAN TempoSurg A Virtual Reality Temporal Bone Surgery Simulator
Rudolf Leuwer,Andreas Petersik,Bernhard Pflesser,Andreas Pommert,Boris Tolsdorff,K. H. Höhne,Ulf Tiede +6 more
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TLDR
The anatomical 3D-model of the VOXEL-MAN TempoSurg simulator was derived from high resolution CT-data of actual human temporal bones, which allows unlimited, standardized and time-as well as cost-saving training for OR-readiness in temporal bone surgery.Abstract:
Objectives: There is a growing demand for the development of virtual reality surgical simulators. Due to the complex surgical anatomy of the skull base and midface such a simulator has very special requirements concerning accuracy of visualization, cutting process and haptic force feedback. Methods: The anatomical 3D-model of the VOXEL-MAN TempoSurg simulator was derived from high resolution CT-data of actual human temporal bones. Key point of this model is the high resolution of the haptic and the visual rendering. The model can be deformed using different cutting tools. Shutter glasses give the impression of a three-dimensional preparation . A corresponding navigation tool allows controlling the drilling process within the 3 planes. Results: Many of the most demanding challenges of a virtual surgical simulator (position of surgeon, choice of temporal bones, opportunity to work with patient cases, degrees-of-freedom, and working with alternative instruments) have already been accomplished. Conclusions: The VOXEL-MAN TempoSurg simulator allows unlimited, standardized and time-as well as cost-saving training for OR-readiness in temporal bone surgery . The training effect can be augmented using the DICOM CT-files of actual patient cases.read more
Citations
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Journal ArticleDOI
Comparison of cadaveric and isomorphic three-dimensional printed models in temporal bone education
TL;DR: A novel simulation with focus on internal anatomic fidelity and evaluation against template/identical cadaveric education is described and evaluated.
Journal ArticleDOI
Comparison of cadaveric and isomorphic virtual haptic simulation in temporal bone training
TL;DR: Study participants found the virtual isomorphic haptic model (VM) to be a beneficial and effective platform for learning temporal bone anatomy and surgical techniques and some concern with limited physical realism likely owing to the haptic device interface.
Journal ArticleDOI
End User Comparison of Anatomically Matched 3-Dimensional Printed and Virtual Haptic Temporal Bone Simulation A Pilot Study
TL;DR: Appraisal of a PBM and a VM found both to have perceived educational benefit, however, the PBM was considered to have more realistic physical properties and was considered the preferred training instrument.
Journal ArticleDOI
Morphological analysis of sigmoid sinus anatomy: clinical applications to neurotological surgery.
Kylen Van Osch,Daniel G. Allen,Bradley Gare,Thomas J. Hudson,Hanif M. Ladak,Sumit K. Agrawal +5 more
TL;DR: Analysis of the SSMs indicated that SS morphology is most variable at its junction with the transverse sinus, and least variable at the JB, which seeks to guide neurotological surgical approaches and provide a template for automated segmentation and surgical simulation.
Book ChapterDOI
The Importance of Automated Real-Time Performance Feedback in Virtual Reality Temporal Bone Surgery Training
Myles T. Davaris,Sudanthi Wijewickrema,Yun Zhou,Patorn Piromchai,James Bailey,Gregor Kennedy,Stephen O'Leary +6 more
TL;DR: The impact of performance feedback in a VR-based surgical training platform with respect to skill acquisition and retention through a randomized controlled trial is investigated.
References
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Journal ArticleDOI
Volume cutting for virtual petrous bone surgery
TL;DR: The system for virtual petrous bone surgery allows the simulation of specific surgical approaches with high-quality visualization, and facilitates comprehension of the complex morphology, and enables the recognition of surgical landmarks, most important if injury to delicate organs is to be avoided.
Journal ArticleDOI
Using a virtual reality temporal bone simulator to assess otolaryngology trainees.
TL;DR: This study hypothesized that both computerized analysis and expert ratings would discriminate the performance of novices from experienced trainees, and performance on the virtual reality temporal bone simulator (VR TB) would differentiate based on previous drilling experience.
Journal ArticleDOI
Objective assessment of temporal bone drilling skills.
TL;DR: Of these measures, the TBC correlates best with EO according to logistic regression and can be reliably used as an objective assessment of temporal bone drilling performance.
Journal ArticleDOI
Computer-based anatomy a prerequisite for computer-assisted radiology and surgery.
Andreas Pommert,Karl Heinz Höhne,Eike Burmester,Sebastian Gehrmann,Rudolf Leuwer,Andreas Petersik,Bernhard Pflesser,Ulf Tiede +7 more
TL;DR: The presented models provide a means for realistic training in interpretation of radiological and endoscopic images of the human body and have the potential to greatly decrease education times and costs.