A four-wall virtual reality visualization of patient-specific anatomy: Creating full user immersive experience from computed tomography scans
Document Type
Article
Publication Date
2023
Department/School
Engineering Technology
Publication Title
Turkish Journal of Engineering
Abstract
Virtual reality is the future of medical imaging diagnosis. Previous studies have introduced virtual reality rendering of anatomical models while others have mentioned processes to extract 3D models from Computed Tomography (CT) images. In this study, we provide a detailed workflow to transforming patient-specific two-dimensional (2D) CT dicom format imaging files to three-dimensional (3D) immersive, dynamic and interactive anatomical assembly models while incorporating them into a four-wall virtual reality environment system. Our study implemented 3D CAD and virtual reality capacities through software and engineering design tools to transform 2D medical images into interactive 3D models in our system. In doing so, the user was able to gain a sense of depth, scale, and dimensionality while immersed in the environment and while implementing interactive tools to investigate patient- specific hip-femur dynamics. At the same time, users were able to identify key anatomical landmarks in the patients’ hip joints. Applications of the VR system to the medical field and orthopedics, in particular, were discussed.
Recommended Citation
Tanbour, H., & Tanbour, E. (2023). A four-wall virtual reality visualization of patient-specific anatomy: Creating full user immersive experience from computed tomography scans. Turkish Journal of Engineering, 7(2), 134–140. https://doi.org/10.31127/tuje.1072285
Comments
E. Tanbour is a faculty member in EMU's School of Engineering.