Advanced search
Publication Cover
Computer Aided Surgery Volume 13, 2008 - Issue 2: MMVR15
Journal homepage
1,988
Views
82
CrossRef citations to date
0
Altmetric
Biomedical Paper

Providing metrics and performance feedback in a surgical simulator

Christopher Sewell Computer Science, Stanford, CaliforniaCorrespondence[email protected]
,
Dan Morris Computer Science, Stanford, California
,
Nikolas H. Blevins Otolaryngology, Stanford, California
,
Sanjeev Dutta Surgery, Stanford University, Stanford, California
,
Sumit Agrawal Otolaryngology, Stanford, California
,
Federico Barbagli Computer Science, Stanford, California
&
Kenneth Salisbury Computer Science, Stanford, California; Surgery, Stanford University, Stanford, California
 show all
Pages 63-81 | Received 09 Jul 2007, Accepted 11 Dec 2007, Published online: 06 Jan 2010

Citations (82)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (5)

Xiaojun Chen & Junlei Hu. (2018) A review of haptic simulator for oral and maxillofacial surgery based on virtual reality. Expert Review of Medical Devices 15:6, pages 435-444.
Read now
Bridget Copson, Sudanthi Wijewickrema, Yun Zhou, Patorn Piromchai, Robert Briggs, James Bailey, Gregor Kennedy & Stephen O'Leary. (2017) Supporting skill acquisition in cochlear implant surgery through virtual reality simulation. Cochlear Implants International 18:2, pages 89-96.
Read now
Sonny Chan, Peter Li, Garrett Locketz, Kenneth Salisbury & Nikolas H. Blevins. (2016) High-fidelity haptic and visual rendering for patient-specific simulation of temporal bone surgery. Computer Assisted Surgery 21:1, pages 85-101.
Read now
Alexis Bozorg Grayeli, Daniele Bernardeschi, Guy Sonji, Hani Elgarem, Olivier Sterkers & Evelyne Ferrary. (2010) Assessing mental representation of mastoidectomy by a computer-based drawing tool. Acta Oto-Laryngologica 130:12, pages 1335-1342.
Read now
Jorge Solis & Atsuo Takanishi. (2010) Recent Trends in Humanoid Robotics Research: Scientific Background, Applications, and Implications. Accountability in Research 17:6, pages 278-298.
Read now

Articles from other publishers (77)

Al-Achraf Khoriati, Zuhaib Shahid, Margaret Fok, Rachel M. Frank, Andreas Voss, Pieter D'Hooghe & Mohamed A. Imam. (2023) Artificial Intelligence and the orthopaedic surgeon: a review of the literature and potential applications for future practice: current concepts. Journal of ISAKOS.
Crossref
Selin Ünsaler, Ayşenur Meriç Hafız, Ozan Gökler & Yasemin Sıla Özkaya. (2023) Virtual reality simulation-based training in otolaryngology. Virtual Reality.
Crossref
Jay J. Park, Jakov Tiefenbach & Andreas K. Demetriades. (2022) The role of artificial intelligence in surgical simulation. Frontiers in Medical Technology 4.
Crossref
Royal M. Pipaliya, Mallory J. Raymond, M. Andrew Rowley, Polly M. Jasper & Ted A. Meyer. (2022) Video Analysis of Otologic Instrument Movement During Resident Mastoidectomies. Otology & Neurotology 43:10, pages e1115-e1120.
Crossref
Nicole LedwosNykan MirchiRecai YilmazAlexander Winkler-SchwartzAnika SawniAli M. FazlollahiVincent BissonnetteKhalid Bajunaid, Abdulrahman J. Sabbagh & Rolando F. Del Maestro. (2022) Assessment of learning curves on a simulated neurosurgical task using metrics selected by artificial intelligence. Journal of Neurosurgery 137:4, pages 1160-1171.
Crossref
Yi Zheng, Marzieh Ershad & Ann Majewicz Fey. (2022) Toward Correcting Anxious Movements Using Haptic Cues on the Da Vinci Surgical Robot. Toward Correcting Anxious Movements Using Haptic Cues on the Da Vinci Surgical Robot.
Aiden Reich, Nykan Mirchi, Recai Yilmaz, Nicole Ledwos, Vincent Bissonnette, Dan Huy Tran, Alexander Winkler-Schwartz, Bekir Karlik & Rolando F. Del Maestro. (2022) Artificial Neural Network Approach to Competency-Based Training Using a Virtual Reality Neurosurgical Simulation. Operative Neurosurgery 23:1, pages 31-39.
Crossref
Yonghao Long, Jianfeng Cao, Anton Deguet, Russell H. Taylor & Qi Dou. (2022) Integrating Artificial Intelligence and Augmented Reality in Robotic Surgery: An Initial dVRK Study Using a Surgical Education Scenario. Integrating Artificial Intelligence and Augmented Reality in Robotic Surgery: An Initial dVRK Study Using a Surgical Education Scenario.
Sriranjan Rasakatla, Azumi Ueno, Antonio Galiza, Takahiro Ario, Ikuo Mizuuchi & Bipin Indurkhya. (2021) An anthropomorphic surgical simulator arm based on series elastic actuators with haptic feedback. An anthropomorphic surgical simulator arm based on series elastic actuators with haptic feedback.
Marzieh Ershad, Robert Rege & Ann Majewicz Fey. (2021) Adaptive Surgical Robotic Training Using Real-Time Stylistic Behavior Feedback Through Haptic Cues. IEEE Transactions on Medical Robotics and Bionics 3:4, pages 959-969.
Crossref
Sudanthi Wijewickrema, Benjamin James Talks, Jesslyn Lamtara, Jean‐Marc Gerard & Stephen O’Leary. (2021) Automated assessment of cortical mastoidectomy performance in virtual reality. Clinical Otolaryngology 46:5, pages 961-968.
Crossref
Alec G. Moore, Ryan P. McMahan & Nicholas Ruozzi. (2021) Exploration of Feature Representations for Predicting Learning and Retention Outcomes in a VR Training Scenario. Big Data and Cognitive Computing 5:3, pages 29.
Crossref
Loulwa M. Al‐Saud. (2020) The utility of haptic simulation in early restorative dental training: A scoping review. Journal of Dental Education 85:5, pages 704-721.
Crossref
Nicole Ledwos, Nykan Mirchi, Vincent Bissonnette, Alexander Winkler-Schwartz, Recai Yilmaz & Rolando F Del Maestro. (2021) Virtual Reality Anterior Cervical Discectomy and Fusion Simulation on the Novel Sim-Ortho Platform: Validation Studies. Operative Neurosurgery 20:1, pages 74-82.
Crossref
Charles Meyer, Francine Noda & Craig R Folsom. (2020) Hybrid Surgical Simulator: A Temporal Bone Simulator Validation Study of the Stryker Surgical Simulator (S3). Military Medicine 185:11-12, pages e2026-e2031.
Crossref
Gizem Arslan, Yasemin Tokem & Yalcin Isler. (2020) Virtual Reality Applications in Nursing. Journal of Intelligent Systems with Applications, pages 122-129.
Crossref
Alec G. Moore, Ryan P. McMahan, Hailiang Dong & Nicholas Ruozzi. (2020) Extracting Velocity-Based User-Tracking Features to Predict Learning Gains in a Virtual Reality Training Application. Extracting Velocity-Based User-Tracking Features to Predict Learning Gains in a Virtual Reality Training Application.
David Escobar-Castillejos, Julieta Noguez, Fernando Bello, Luis Neri, Alejandra J. Magana & Bedrich Benes. (2020) A Review of Training and Guidance Systems in Medical Surgery. Applied Sciences 10:17, pages 5752.
Crossref
Babak Givi, Michael G. Moore, Arnaud F. Bewley, Charles S. Coffey, Marc A. Cohen, Amy C. Hessel, Scharukh Jalisi, Steven Kang, Jason G. Newman, Liana Puscas, Maisie Shindo, Andrew Shuman, Punam Thakkar, Donald T. Weed & Ara Chalian. (2020) Advanced head and neck surgery training during the COVID ‐19 pandemic . Head & Neck 42:7, pages 1411-1417.
Crossref
Samaneh Siyar, Hamed Azarnoush, Saeid Rashidi, Alexander Winkler-Schwartz, Vincent Bissonnette, Nirros Ponnudurai & Rolando F. Del Maestro. (2020) Machine learning distinguishes neurosurgical skill levels in a virtual reality tumor resection task. Medical & Biological Engineering & Computing 58:6, pages 1357-1367.
Crossref
Sanjana Bhalla, Neil Tolley & Zaid Awad. (2020) Creating a Validated Simulation Training Curriculum in Otolaryngology. Current Otorhinolaryngology Reports 8:1, pages 96-105.
Crossref
Laura Marcano, Davide Manca, Anis Yazidi & Tiina Komulainen. (2020) A methodology for building a data-enclosing tunnel for automated online-feedback in simulator Training. Computers & Chemical Engineering 132, pages 106621.
Crossref
Jesslyn Lamtara, Nathan Hanegbi, Benjamin Talks, Sudanthi Wijewickrema, Xingjun Ma, Patorn Piromchai, James Bailey & Stephen O’Leary. 2020. Artificial Intelligence in Education. Artificial Intelligence in Education 296 308 .
Alexander Winkler-Schwartz, Vincent Bissonnette, Nykan Mirchi, Nirros Ponnudurai, Recai Yilmaz, Nicole Ledwos, Samaneh Siyar, Hamed Azarnoush, Bekir Karlik & Rolando F. Del Maestro. (2019) Artificial Intelligence in Medical Education: Best Practices Using Machine Learning to Assess Surgical Expertise in Virtual Reality Simulation. Journal of Surgical Education 76:6, pages 1681-1690.
Crossref
Alexander Winkler-Schwartz, Recai Yilmaz, Nykan Mirchi, Vincent Bissonnette, Nicole Ledwos, Samaneh Siyar, Hamed Azarnoush, Bekir Karlik & Rolando Del Maestro. (2019) Machine Learning Identification of Surgical and Operative Factors Associated With Surgical Expertise in Virtual Reality Simulation. JAMA Network Open 2:8, pages e198363.
Crossref
Roger D. DiasAvni GuptaSteven J. Yule. (2019) Using Machine Learning to Assess Physician Competence: A Systematic Review. Academic Medicine 94:3, pages 427-439.
Crossref
Fahd Al-Shahrestani, Mads Sølvsten Sørensen & Steven Arild Wuyts Andersen. (2019) Performance metrics in mastoidectomy training: a systematic review. European Archives of Oto-Rhino-Laryngology 276:3, pages 657-664.
Crossref
Luv Javia, Maya G. Sardesai & Ellen S. Deutsch. 2019. Comprehensive Healthcare Simulation: Surgery and Surgical Subspecialties. Comprehensive Healthcare Simulation: Surgery and Surgical Subspecialties 275 287 .
Myles Davaris, Sudanthi Wijewickrema, Yun Zhou, Patorn Piromchai, James Bailey, Gregor Kennedy & Stephen O’Leary. 2019. Artificial Intelligence in Education. Artificial Intelligence in Education 96 109 .
Birgitta Dresp-Langley. (2018) Towards Expert-Based Speed–Precision Control in Early Simulator Training for Novice Surgeons. Information 9:12, pages 316.
Crossref
Justin T Lui, Evan D Compton, Won Hyung A Ryu & Monica Y Hoy. (2018) Assessing the role of virtual reality training in Canadian Otolaryngology–Head & Neck Residency Programs: a national survey of program directors and residents. Journal of Otolaryngology - Head & Neck Surgery 47:1.
Crossref
Caiwen Huang, Horace Cheng, Yves Bureau, Hanif M. Ladak & Sumit K. Agrawal. (2018) Automated Metrics in a Virtual-Reality Myringotomy Simulator: Development and Construct Validity. Otology & Neurotology 39:7, pages e601-e608.
Crossref
Sudanthi Wijewickrema, Xingjun Ma, Patorn Piromchai, Robert Briggs, James Bailey, Gregor Kennedy & Stephen O’Leary. 2018. Artificial Intelligence in Education. Artificial Intelligence in Education 584 598 .
Bertram Unger, Nariman Sepehri, Vivek Rampersad, Justyn Pisa, Michael Gousseau & Jordan B. Hochman. (2017) Elements of virtual temporal bone surgery: Manipulandum format may be more important to surgeons than haptic device force capabilities. Laryngoscope Investigative Otolaryngology 2:6, pages 358-362.
Crossref
K Luu, L Straatman, D Nakku, B Westerberg, N Carter & M Clark. (2017) Evaluation of a low-fidelity ear surgery simulator in a low-resource setting. The Journal of Laryngology & Otology 131:11, pages 1010-1016.
Crossref
Luv Javia & Maya G. Sardesai. (2017) Physical Models and Virtual Reality Simulators in Otolaryngology. Otolaryngologic Clinics of North America 50:5, pages 875-891.
Crossref
Ioanna Ioannou, Yun Zhou, Sudanthi Wijewickrema, Patorn Piromchai, Bridget Copson, Gregor Kennedy & Stephen O’Leary. (2017) Comparison of Experts and Residents Performing a Complex Procedure in a Temporal Bone Surgery Simulator. Otology & Neurotology 38:6, pages e85-e91.
Crossref
Garrett D. Locketz, Justin T. Lui, Sonny Chan, Kenneth Salisbury, Joseph C. Dort, Patricia Youngblood & Nikolas H. Blevins. (2017) Anatomy‐Specific Virtual Reality Simulation in Temporal Bone Dissection: Perceived Utility and Impact on Surgeon Confidence. Otolaryngology–Head and Neck Surgery 156:6, pages 1142-1149.
Crossref
Pooneh R. TabriziHongqiang SangHadi F. TalariDiego PreciadoReza MonfarediBrian ReillySreekanth ArikatlaAndinet EnquobahrieKevin Cleary. Temporal bone dissection simulator for training pediatric otolaryngology surgeons. Temporal bone dissection simulator for training pediatric otolaryngology surgeons.
Omar Musbahi, Abdullatif Aydin, Yasser Al Omran, Christopher James Skilbeck & Kamran Ahmed. (2017) Current Status of Simulation in Otolaryngology: A Systematic Review. Journal of Surgical Education 74:2, pages 203-215.
Crossref
Anthony. M. Jarc & Myriam J. Curet. (2016) Viewpoint matters: objective performance metrics for surgeon endoscope control during robot-assisted surgery. Surgical Endoscopy 31:3, pages 1192-1202.
Crossref
Gregory J. Wiet, Don Stredney, Kimerly Powell, Brad Hittle & Thomas Kerwin. (2016) Integration of high-resolution data for temporal bone surgical simulations. International Journal of Computer Assisted Radiology and Surgery 11:10, pages 1845-1854.
Crossref
Steven Arild Wuyts Andersen, Søren Foghsgaard, Lars KongePer Cayé-Thomasen & Mads Sølvsten Sørensen. (2016) The effect of self-directed virtual reality simulation on dissection training performance in mastoidectomy. The Laryngoscope 126:8, pages 1883-1888.
Crossref
Caiwen Huang, Sumit K. Agrawal & Hanif M. Ladak. (2016) Virtual Reality Simulator for Training in Myringotomy with Tube Placement. Journal of Medical and Biological Engineering 36:2, pages 214-225.
Crossref
Sudanthi Wijewickrema, Yun Zhou, James Bailey, Gregor Kennedy & Stephen O'Leary. (2016) Provision of automated step-by-step procedural guidance in virtual reality surgery simulation. Provision of automated step-by-step procedural guidance in virtual reality surgery simulation.
Caiwen Huang, Horace Cheng, Yves Bureau, Sumit K. Agrawal & Hanif M. Ladak. (2015) Face and content validity of a virtual-reality simulator for myringotomy with tube placement. Journal of Otolaryngology - Head & Neck Surgery 44:1.
Crossref
N West, L Konge, P Cayé-Thomasen, M S Sørensen & S A W Andersen. (2015) Peak and ceiling effects in final-product analysis of mastoidectomy performance. The Journal of Laryngology & Otology 129:11, pages 1091-1096.
Crossref
Rishabh Sethia & Gregory J. Wiet. (2015) Preoperative preparation for otologic surgery. Current Opinion in Otolaryngology & Head and Neck Surgery 23:5, pages 355-359.
Crossref
Sudanthi Wijewickrema, Patorn Piromchai, Yun Zhou, Ioanna Ioannou, James Bailey, Gregor Kennedy & Stephen O’Leary. (2015) Developing Effective Automated Feedback in Temporal Bone Surgery Simulation. Otolaryngology–Head and Neck Surgery 152:6, pages 1082-1088.
Crossref
Sudanthi Wijewickrema, Ioanna Ioannou, Yun Zhou, Patorn Piromchai, James Bailey, Gregor Kennedy & Stephen OLeary. (2015) Region-Specific Automated Feedback in Temporal Bone Surgery Simulation. Region-Specific Automated Feedback in Temporal Bone Surgery Simulation.
Steven A. W. Andersen, Per Cayé-Thomasen & Mads S. Sørensen. (2015) Mastoidectomy performance assessment of virtual simulation training using final-product analysis. The Laryngoscope 125:2, pages 431-435.
Crossref
Belgacem Ben Youssef. (2013) A visualization tool of 3-D time-varying data for the simulation of tissue growth. Multimedia Tools and Applications 73:3, pages 1795-1817.
Crossref
Paul Hong, Amanda N Webb, Gerard Corsten, Janet Balderston, Rebecca Haworth, Krista Ritchie & Emad Massoud. (2014) An anatomically sound surgical simulation model for myringotomy and tympanostomy tube insertion. International Journal of Pediatric Otorhinolaryngology 78:3, pages 522-529.
Crossref
Asit Arora, Chloe Swords, Sam Khemani, Zaid Awad, Ara Darzi, Arvind Singh & Neil Tolley. (2014) Virtual reality case-specific rehearsal in temporal bone surgery: A preliminary evaluation. International Journal of Surgery 12:2, pages 141-145.
Crossref
Asit Arora, Loretta Y.M. Lau, Zaid Awad, Ara Darzi, Arvind Singh & Neil Tolley. (2014) Virtual reality simulation training in Otolaryngology. International Journal of Surgery 12:2, pages 87-94.
Crossref
Jagadeesan Jayender & Kirby G. Vosburgh. 2014. Intraoperative Imaging and Image-Guided Therapy. Intraoperative Imaging and Image-Guided Therapy 117 133 .
Tobias A. Mattei, Christopher Frank, Joshua Bailey, Edna Lesle, Alyssa Macuk, Matthew Lesniak, Ankit Patel, Martin J. Morris, Kalyani Nair & Julian J. Lin. (2013) Design of a synthetic simulator for pediatric lumbar spine pathologies. Journal of Neurosurgery: Pediatrics 12:2, pages 192-201.
Crossref
Jeanett Strandbygaard, Flemming Bjerrum, Mathilde Maagaard, Per Winkel, Christian Rifbjerg Larsen, Charlotte Ringsted, Christian Gluud, Teodor Grantcharov, Bent Ottesen & Jette Led Sorensen. (2013) Instructor Feedback Versus No Instructor Feedback on Performance in a Laparoscopic Virtual Reality Simulator. Annals of Surgery 257:5, pages 839-844.
Crossref
Yun Zhou, James Bailey, Ioanna Ioannou, Sudanthi Wijewickrema, Gregor Kennedy & Stephen O’Leary. 2013. Medical Image Computing and Computer-Assisted Intervention – MICCAI 2013. Medical Image Computing and Computer-Assisted Intervention – MICCAI 2013 315 322 .
Ellen S. Deutsch & Luv R. Javia. 2013. The Comprehensive Textbook of Healthcare Simulation. The Comprehensive Textbook of Healthcare Simulation 477 486 .
Luv Javia & Ellen S. Deutsch. (2012) A Systematic Review of Simulators in Otolaryngology. Otolaryngology–Head and Neck Surgery 147:6, pages 999-1011.
Crossref
Clare Faurie & Mohammed Khadra. (2012) Technical competence in surgeons. ANZ Journal of Surgery 82:10, pages 682-690.
Crossref
E. Boyle, M. Al‐Akash, S. Patchett, O. Traynor & D. McNamara. (2012) Towards continuous improvement of endoscopy standards: validation of a colonoscopy assessment form. Colorectal Disease 14:9, pages 1126-1131.
Crossref
Andrew K. Ho, Hussain Alsaffar, Philip C. Doyle, Hanif M. Ladak & Sumit K. Agrawal. (2012) Virtual reality myringotomy simulation with real-time deformation: Development and validity testing. The Laryngoscope 122:8, pages 1844-1851.
Crossref
Asit Arora, Sam Khemani, Neil Tolley, Arvind Singh, James Budge, David A. Diaz Voss Varela, Howard W. Francis, Ara Darzi & Nasir I. Bhatti. (2011) Face and Content Validation of a Virtual Reality Temporal Bone Simulator. Otolaryngology–Head and Neck Surgery 146:3, pages 497-503.
Crossref
Gregory J. Wiet, Don Stredney, Thomas Kerwin, Bradley Hittle, Soledad A. Fernandez, Mahmoud Abdel-Rasoul & D. Bradley Welling. (2012) Virtual temporal bone dissection system: OSU virtual temporal bone system. The Laryngoscope 122:S1, pages S1-S12.
Crossref
Thomas Kerwin, Gregory Wiet, Don Stredney & Han-Wei Shen. (2011) Automatic scoring of virtual mastoidectomies using expert examples. International Journal of Computer Assisted Radiology and Surgery 7:1, pages 1-11.
Crossref
Gregory J. Wiet, Don Stredney & Dinah Wan. (2011) Training and Simulation in Otolaryngology. Otolaryngologic Clinics of North America 44:6, pages 1333-1350.
Crossref
Jorge Solis & Atsuo Takanish. 2011. Biomechatronics in Medicine and Healthcare. Biomechatronics in Medicine and Healthcare 171 186 .
Emily Boyle, Musallam Al-Akash, Anthony G Gallagher, Oscar Traynor, Arnold D K Hill & Paul C Neary. (2011) Optimising surgical training: use of feedback to reduce errors during a simulated surgical procedure. Postgraduate Medical Journal 87:1030, pages 524-528.
Crossref
Emily Boyle, Dara A. O'Keeffe, Peter A. Naughton, Arnold D.K. Hill, Ciaran O. McDonnell & Daragh Moneley. (2011) The importance of expert feedback during endovascular simulator training. Journal of Vascular Surgery 54:1, pages 240-248.e1.
Crossref
Carla M. Pugh. (2011) Low-Cost, Locally Fabricated Simulators: The Wave of the Future. Journal of Surgical Research 168:1, pages 29-30.
Crossref
Phattanapon Rhienmora, Peter Haddawy, Siriwan Suebnukarn & Matthew N. Dailey. (2011) Intelligent dental training simulator with objective skill assessment and feedback. Artificial Intelligence in Medicine 52:2, pages 115-121.
Crossref
Jennifer J. Shin, John H. Page, Jo Shapiro, Stacey T. Gray & Michael J. Cunningham. (2010) Validation of a clinical practice ability instrument for surgical training. Otolaryngology–Head and Neck Surgery 142:4, pages 493.
Crossref
A P George & R De. (2009) Review of temporal bone dissection teaching: how it was, is and will be. The Journal of Laryngology & Otology 124:2, pages 119-125.
Crossref
Kimberly A. Everett, Rachael E. Exon, Sylvia H. Rosales & Gregory J. Gerling. (2009) A virtual reality interface to provide point interaction and constriction to the finger. A virtual reality interface to provide point interaction and constriction to the finger.
Sung Wan Byun. (2009) Three-Dimensional Computer Graphics in Otology. Korean Journal of Otolaryngology-Head and Neck Surgery 52:2, pages 104.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.