ABSTRACT
Neuroscientists traditionally use information representations on 2D displays to analyze multivariate spatial and temporal datasets for an evaluation stage before neurosurgery. However, it is challenging to mentally integrate the information from these datasets. Our immersive tool aims to help neuroscientists to understand spatiotemporal phenomena inside a brain during the evaluation. We refined our tool through different phases by gathering feedback from the medical experts. Early feedback from neurologists suggests that using virtual reality for epilepsy presurgical evaluation can be useful in the future.
Supplemental Material
- Zahra Aminolroaya, Samuel Wiebe, Colin Bruce Josephson, Hannah Sloan, Christian Roatis, Patrick Abou Gharib, Frank Maurer, and Kun Feng. 2019. EPES: Seizure Propagation Analysis in an Immersive Environment. Proceedings of the 2019 ACM International Conference on Interactive Surfaces and Spaces (2019). http://dx.doi.org/10.1145/3343055.3360745 Google ScholarDigital Library
- Leila Ayoubian, François Tadel, and Olivier David. 2020. Epileptogenicity Mapping. Neurosurgery Clinics of North America 31, 3 (2020), 449--457. http://dx.doi.org/10.1016/j.nec.2020.03.006Google ScholarCross Ref
- Antonio Bernardo. 2017. Virtual Reality and Simulation in Neurosurgical Training. World Neurosurgery 106 (2017), 1015--1029. http://dx.doi.org/10.1016/j.wneu.2017.06.140Google ScholarCross Ref
- Chun-houh Chen. 2008. Handbook of data visualization: 50 tables, Berlin: Springer. Google ScholarDigital Library
- Maxime Cordeil, Benjamin Bach, Andrew Cunningham, Bastian Montoya, Ross T. Smith, Bruce H. Thomas, and Tim Dwyer. 2020. Embodied Axes: Tangible, Actuated Interaction for 3D Augmented Reality Data Spaces. Proceedings of the 2020 CHI Conference on Human Factors in Computing Systems (2020). http://dx.doi.org/10.1145/3313831.3376613 Google ScholarDigital Library
- Christophe Hurter, Nathalie Henry Riche, Steven M. Drucker, Maxime Cordeil, Richard Alligier, and Romain Vuillemot. 2018. FiberClay: Sculpting Three Dimensional Trajectories to Reveal Structural Insights. IEEE Transactions on Visualization and Computer Graphics 25, 1 (2018), 704--714. DOI: http://dx.doi.org/10.1109/TVCG.2018.2865191.Google ScholarDigital Library
- Laura Stone Mcguire, Amanda Kwasnicki, Rahim Ismail, Talia Weiss, Fady T. Charbel, and Ali Alaraj. 2018. Future of Visualization and Simulation in Neurosurgery. Comprehensive Healthcare Simulation: Neurosurgery Comprehensive Healthcare Simulation (2018), 265--282. DOI:http://dx.doi.org/10.1007/978--3--319--75583-0_20Google Scholar
- Mauricio Sousa, Daniel Mendes, Soraia Paulo, Nuno Matela, Joaquim Jorge, and Daniel Simoes Lopes. 2017. VRRRRoom: Virtual Reality for Radiologists in the Reading Room. In Proceedings of the 2017 CHI Conference on Human Factors in Computing Systems (CHI '17). ACM, New York, NY, USA, 4057--4062. DOI:http://dx.doi.org/10.1145/3025453.3025566 Google ScholarDigital Library
- Axel Thomas Stadie, Ralf Alfons Kockro, Robert Reisch, Andrei Tropine, Stephan Boor, Peter Stoeter, and Axel Perneczky. 2008. Virtual reality system for planning minimally invasive neurosurgery. Journal of Neurosurgery 108, 2 (2008), 382--394. DOI:http://dx.doi.org/10.3171/jns/2008/108/2/0382Google ScholarCross Ref
- Yunhua Wang, Rajeev Agarwal, Dang Nguyen, Virgil Domocos, and Jean Gotman. 2005. Intracranial Electrode Visualization in Invasive Pre-surgical Evaluation for Epilepsy. 2005 IEEE Engineering in Medicine and Biology 27th Annual Conference (2005). http://dx.doi.org/10.1109/iembs.2005.1616573Google Scholar
Index Terms
- Virtual Reality for Understanding Multidimensional Spatiotemporal Phenomena in Neuroscience
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