Toward a comprehensive hybrid physical-virtual reality simulator of peripheral anesthesia with ultrasound and neurostimulator guidance

• Published in: Studies in health technology and informatics Vol. 163; p. 552
• Main Authors: Samosky, Joseph T, Allen, Pete, Boronyak, Steve, Branstetter, Barton, Hein, Steven, Juhas, Mark, Nelson, Douglas A, Orebaugh, Steven, Pinto, Rohan, Smelko, Adam, Thompson, Mitch, Weaver, Robert A
• Format: Journal Article
• Language: English
• Published: Netherlands 2011
• Subjects: Computer Simulation; Electric Stimulation - instrumentation; Electric Stimulation - methods; Equipment Design; Equipment Failure Analysis; Humans; Manikins; Models, Biological; Nerve Block - instrumentation; Nerve Block - methods; Surgery, Computer-Assisted - instrumentation; Surgery, Computer-Assisted - methods; Systems Integration; Ultrasonography, Interventional - instrumentation; Ultrasonography, Interventional - methods; User-Computer Interface
• ISSN: 0926-9630
• DOI: 10.3233/978-1-60750-706-2-552

We are developing a simulator of peripheral nerve block utilizing a mixed-reality approach: the combination of a physical model, an MRI-derived virtual model, mechatronics and spatial tracking. Our design uses tangible (physical) interfaces to simulate surface anatomy, haptic feedback during needle insertion, mechatronic display of muscle twitch corresponding to the specific nerve stimulated, and visual and haptic feedback for the injection syringe. The twitch response is calculated incorporating the sensed output of a real neurostimulator. The virtual model is isomorphic with the physical model and is derived from segmented MRI data. This model provides the subsurface anatomy and, combined with electromagnetic tracking of a sham ultrasound probe and a standard nerve block needle, supports simulated ultrasound display and measurement of needle location and proximity to nerves and vessels. The needle tracking and virtual model also support objective performance metrics of needle targeting technique.