Research

PRESENTATIONS AND PUBLICATIONS

Presentations

Garrett D. Locketz et al. Anatomy Specific Virtual Simulation in Temporal Bone Dissection. Presented at: American Academy of Otolaryngology – Head and Neck Surgery Annual Meeting, 2016; September 18-2, San Diego, CA

Garrett D. Locketz et al. Replicating Surgical Procedures in Patient Specific Virtual Reality. Presented at: American Academy of Otolaryngology – Head and Neck Surgery Annual Meeting, 2016; September 18-2, San Diego, CA

Garrett D. Locketz, Nikolas H. Blevins, MD, Kenneth Salisbury, PhD. Social Surgery in the Virtual World – A New Era in Surgical Preparation and Training. Accepted for Oral Presentation and Interactive Demonstration at: MedicineX; 2015, September 24-27; Stanford, CA.

Garrett D. Locketz, Nikolas H. Blevins, MD, Kenneth Salisbury, PhD. Patient-Specific Virtual Surgical Rehearsal. Oral presentation at: 9th Annual Stanford Artificial Intelligence Conference; 2015, April 30; Stanford, CA.

Garrett D. Locketz, Nikolas H. Blevins, MD. Patient-Specific Temporal Bone Surgical Simulation. Interactive demonstration presented at: Stanford Otology Course; 2014, November 6-8; Stanford, CA.

Nikolas H. Blevins, MD, Kenneth Salisbury, PhD, Garrett D. Locketz. Patient-Specific Virtual Surgical Rehearsal. Interactive Hive Demonstration: TEDMed 2014; September 10-12; San Francisco, CA.

 

Manuscripts/Studies Submitted

Chan S, Li P, Salisbury K, Blevins NH. High-Fidelity Haptic and Visual Rendering for Patient-Specific Simulation of Temporal Bone Surgery (2016)

 

Publications

Chan S, Blevins NH, Salisbury K.  Deformable Haptic Rendering for Volumetric Medical Image Data 2013 World Haptics Conference (WHC) 2013: 73-78

Forsslund J, Chan S, Selesnick J, Salisbury K, Silva R, Blevins NH.  The Effect of Haptic Rendering Degrees of Freedom on Task Performance in Virtual Environments, Stud Health Technol Inform 2013; 184:129-35.

Chan S, Conti F, Salisbury K, Blevins NH. Virtual Reality Simulation in Neurosurgery: Technologies and Evolution. Neurosurgery. 2013: Suppl 1; 154-64.

Monfared A, Mitteramskogler G, Gruber S, Salisbury JK, Stampfl J, Blevins NH. High-fidelity Inexpensive Surgical Middle Ear Simulator. Otology & Neurotol 2012:33(9):1573-7.

Forsslund, J., Chan, S., Salisbury, K., Silva, R. & Girod, S. Design and implementation of a maxillofacial surgery rehearsal environment with haptic interaction for bone fragment and plate alignment (extended abstract). Proc. Computer Assisted Radiology and Surgery (2012).

Jo, B., Chan, S., Salisbury, K. & Girod, S. Real-time finite element analysis in haptic surgical simulation (extended abstract). Proc. Computer Assisted Radiology and Surgery (2012).

Chan, S., Conti, F., Blevins, N. H., & Salisbury, K. Constraint-based six degree-of-freedom haptic rendering of volume-embedded isosurfaces. Proc. IEEE World Haptics Conference (2011).

Chan, S., Li, P., Lee, D. H., Salisbury, K. & Blevins, N. H. A virtual surgical environment for rehearsal of tympanomastoidectomy. Medicine Meets Virtual Reality (2011).

Lee, D. H. et al. Reconstruction and exploration of virtual middle-ear models derived from micro-CT datasets. Hearing Research (2010).

Parikh, S. S. et al. Integration of patient-specific paranasal sinus CT data into a virtual surgical environment. American Journal of Rhinology (2009).

Liu, W. et al. Representing fluid with smoothed particle hydrodynamics in a cranial base simulator. Medicine Meets Virtual Reality 257-259 (2008).

Morris, D. & Salisbury, K. Automatic preparation, calibration, and simulation of deformable objects. Computer Methods in Biomechanics and Biomedical Engineering 11, 263-279 (2008).

Salisbury, C. M., Salisbury, J. K., Blevins, N. H. & Gillespie, R. B. A microsurgery-specific haptic device for telerobotic medical treatment. American Nuclear Society (2008).

Sewell, C. et al. Providing metrics and performance feedback in a surgical simulator. Computer Aided Surgery 13, 63-81 (2008).

Sewell, C., Morris, D., Blevins, N. H., Barbagli, F. & Salisbury, K. Validating metrics for a mastoidectomy simulator. Medicine Meets Virtual Reality 421-426 (2007).

Morris, D. et al. Visuohaptic simulation of bone surgery for training and evaluation. IEEE Computer Graphics and Applications 26, 48-57 (2006).

Sewell, C., Morris, D., Blevins, N. H., Barbagli, F. & Salisbury, K. Achieving proper exposure in surgical simulation. Medicine Meets Virtual Reality 497-502 (2006).

Morris, D., Girod, S., Barbagli, F. & Salisbury, K. An interactive simulation environment for craniofacial surgical procedures. Medicine Meets Virtual Reality 334-341 (2005).

Sewell, C., Morris, D., Blevins, N. H., Barbagli, F. & Salisbury, K. Quantifying risky behavior in surgical simulation. Medicine Meets Virtual Reality 451-457 (2005).

Morris, D., Sewell, C., Blevins, N. H., Barbagli, F. & Salisbury, J. K. A collaborative virtual environment for the simulation of temporal bone surgery. Medical Image Computing and Computer Assisted Intervention 319-327 (2004).