Abstract
Advances in virtual and augmented reality (AR) are having an impact on the medical field in areas such as surgical simulation. Improvements to surgical simulation will provide students and residents with additional training and evaluation methods. This is particularly important for procedures such as the endoscopic third ventriculostomy (ETV), which residents perform regularly. Simulators such as NeuroTouch, have been designed to aid in training associated with this procedure. The authors have designed an affordable and easily accessible ETV simulator, and compare it with the existing NeuroTouch for its usability and training effectiveness. This simulator was developed using Unity, Vuforia and the leap motion (LM) for an AR environment. The participants, 16 novices and two expert neurosurgeons, were asked to complete 40 targeting tasks. Participants used the NeuroTouch tool or a virtual hand controlled by the LM to select the position and orientation for these tasks. The length of time to complete each task was recorded and the trajectory log files were used to calculate performance. The resulting data from the novices' and experts' speed and accuracy are compared, and they discuss the objective performance of training in terms of the speed and accuracy of targeting accuracy for each system.
Highlights
Medical education and training are areas currently impacted by advances in virtual and augmented reality (VR and AR) [1,2,3]
For the tasks completed using NeuroTouch, this was extracted from the recorded trajectory logfiles (Fig. 10)
The NeuroTouch records the position of the tip and orientation of the tool along with the time between the start of the task and the time when the participant presses the foot pedal
Summary
Medical education and training are areas currently impacted by advances in virtual and augmented reality (VR and AR) [1,2,3]. NeuroTouch was developed by the National Research Council of Canada in partnership with over 20 research hospital across Canada [7]. This type of simulator combines graphics with a mechanical arm to simulate various types of procedures [7]. These types of systems are very expensive, which limits the number of institutions that can provide these systems to students due to financial constraints [8]
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