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Computer Aided Surgery Volume 6, 2001 - Issue 6
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Original Article

The First Clinical Application of a “Hands-On” Robotic Knee Surgery System

M. Jakopec Department of Mechanical Engineering, Imperial College, London, United Kingdom
,
S. J. Harris Department of Mechanical Engineering, Imperial College, London, United Kingdom
,
F. Rodriguez y Baena Department of Mechanical Engineering, Imperial College, London, United Kingdom
,
P. Gomes Department of Mechanical Engineering, Imperial College, London, United Kingdom
,
J. Cobb Department of Orthopaedic Surgery, University College London Hospitals Trust, London, United Kingdom
&
B. L. Davies Department of Mechanical Engineering, Imperial College, London, United KingdomCorrespondence[email protected]
Pages 329-339 | Published online: 06 Jan 2010

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Young-Wan Moon, Chul-won Ha, Kwan-Hong Do, Chang-Young Kim, Jeong-Hoon Han, Sang- Eun Na, Choong-hee Lee, Jae-Gyoon Kim & Youn-Soo Park. (2012) Comparison of robot-assisted and conventional total knee arthroplasty: A controlled cadaver study using multiparameter quantitative three-dimensional CT assessment of alignment. Computer Aided Surgery 17:2, pages 86-95.
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Takehito Hananouchi, Nobuo Nakamura, Akihiro Kakimoto, Hideki Yohsikawa & Nobuhiko Sugano. (2008) CT-based planning of a single-radius femoral component in total knee arthroplasty using the ROBODOC system. Computer Aided Surgery 13:1, pages 23-29.
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Peter P. Pott, Hanns-peter Scharf & Markus L. R. Schwarz. (2005) Today's state of the art in surgical robotics. Computer Aided Surgery 10:2, pages 101-132.
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B. Davies. (2003) Robotic devices in surgery. Minimally Invasive Therapy & Allied Technologies 12:1-2, pages 5-13.
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Kevin Cleary & Charles Nguyen. (2001) State of the Art in Surgical Robotics: Clinical Applications and Technology Challenges. Computer Aided Surgery 6:6, pages 312-328.
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Hannes Vermue, Cécile Batailler, Paul Monk, Fares Haddad, Thomas Luyckx & Sébastien Lustig. (2022) The evolution of robotic systems for total knee arthroplasty, each system must be assessed for its own value: a systematic review of clinical evidence and meta-analysis. Archives of Orthopaedic and Trauma Surgery 143:6, pages 3369-3381.
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P. Stefan, J. Traub, C. Hennersperger, M. Esposito & N. Navab. 2020. Handbook of Medical Image Computing and Computer Assisted Intervention. Handbook of Medical Image Computing and Computer Assisted Intervention 979 1012 .
Russell H. Taylor, Peter Kazanzides, Gregory S. Fischer & Nabil Simaan. 2020. Biomedical Information Technology. Biomedical Information Technology 617 672 .
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Pietro S. Randelli, Alessandra Menon, Stefano Pasqualotto, Beatrice Zanini, Riccardo Compagnoni & Davide Cucchi. (2019) Patient-Specific Instrumentation Does Not Affect Rotational Alignment of the Femoral Component and Perioperative Blood Loss in Total Knee Arthroplasty: A Prospective, Randomized, Controlled Trial. The Journal of Arthroplasty 34:7, pages 1374-1381.e1.
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Francesco Setti, Elettra Oleari, Alice Leporini, Diana Trojaniello, Alberto Sanna, Umberto Capitanio, Francesco Montorsi, Andrea Salonia & Riccardo Muradore. (2019) A Multirobots Teleoperated Platform for Artificial Intelligence Training Data Collection in Minimally Invasive Surgery. A Multirobots Teleoperated Platform for Artificial Intelligence Training Data Collection in Minimally Invasive Surgery.
Mark W. Allen & David J. Jacofsky. 2019. Robotics in Knee and Hip Arthroplasty. Robotics in Knee and Hip Arthroplasty 13 25 .
Ming Han Lincoln Liow, Pak Lin Chin & Seng Jin Yeo. 2019. Robotics in Knee and Hip Arthroplasty. Robotics in Knee and Hip Arthroplasty 195 201 .
Aidin Eslam Pour, Jonathan M. Vigdorchik & Ran Schwarzkopf. (2018) Acetabular implant placement: How do we place it in the 21st century?. Seminars in Arthroplasty 29:4, pages 299-307.
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Marek Wartenberg, Joseph Schornak, Katie Gandomi, Paulo Carvalho, Chris Nycz, Niravkumar Patel, Iulian Iordachita, Clare Tempany, Nobuhiko Hata, Junichi Tokuda & Gregory S. Fischer. (2018) Closed-Loop Active Compensation for Needle Deflection and Target Shift During Cooperatively Controlled Robotic Needle Insertion. Annals of Biomedical Engineering 46:10, pages 1582-1594.
Crossref
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Crossref
Ravikiran Shenoy & Dinesh Nathwani. (2017) Evidence for robots. SICOT-J 3, pages 38.
Crossref
David J. Jacofsky & Mark Allen. (2016) Robotics in Arthroplasty: A Comprehensive Review. The Journal of Arthroplasty 31:10, pages 2353-2363.
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Kenneth L. Urish, Michael Conditt, Martin Roche & Harry E. Rubash. (2016) Robotic Total Knee Arthroplasty: Surgical Assistant for a Customized Normal Kinematic Knee. Orthopedics 39:5.
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Marek Wartenberg, Niravkumar Patel, Gang Li & Gregory S. Fischer. (2016) Towards synergistic control of hands-on needle insertion with automated needle steering for MRI-guided prostate interventions. Towards synergistic control of hands-on needle insertion with automated needle steering for MRI-guided prostate interventions.
A. Pappalardo, A. Albakri, C. Liu, L. Bascetta, E. De Momi & P. Poignet. (2016) Hunt–Crossley model based force control for minimally invasive robotic surgery. Biomedical Signal Processing and Control 29, pages 31-43.
Crossref
James A. Keeney. (2016) Innovations in Total Knee Arthroplasty: Improved Technical Precision, But Unclear Clinical Benefits. Orthopedics 39:4, pages 217-220.
Crossref
Narendra Dahotre & Sameehan JoshiNarendra B. Dahotre & Sameehan S. Joshi. 2016. Machining of Bone and Hard Tissues. Machining of Bone and Hard Tissues 45 98 .
Werner Siebert, Sabine Mai & Peter F. Heeckt. 2016. Minimally Invasive Surgery in Orthopedics. Minimally Invasive Surgery in Orthopedics 1203 1211 .
Russell H. Taylor, Arianna Menciassi, Gabor Fichtinger, Paolo Fiorini & Paolo Dario. 2016. Springer Handbook of Robotics. Springer Handbook of Robotics 1657 1684 .
Nathan A. Netravali, Martin Börner & William L. Bargar. 2016. Computer-Assisted Musculoskeletal Surgery. Computer-Assisted Musculoskeletal Surgery 219 234 .
Carlos Eduardo Díaz, Roemi Fernández, Manuel Armada & Felipe de Jesús García Gutiérrez. (2015) State of the art in robots used in minimally invasive surgeries. Natural Orifice Transluminal Surgery (NOTES) as a particular case. Industrial Robot: An International Journal 42:6, pages 508-532.
Crossref
Stefan Escaida Navarro, Franz Heger, Felix Putze, Tim Beyl, Tanja Schultz & Bjorn Hein. (2015) Telemanipulation with force-based display of proximity fields. Telemanipulation with force-based display of proximity fields.
Xing Wang, Rui Song, Xiaojing Liu, Qianqian Li, Teng Cheng & Yuan Xue. (2015) System design for orthognathic aided robot. System design for orthognathic aided robot.
Werner Siebert, Sabine Mai & Peter F. Heeckt. 2016. Minimally Invasive Surgery in Orthopedics. Minimally Invasive Surgery in Orthopedics 1 10 .
Ali Mofidi, Johannes F. Plate, Bo Lu, Michael A. Conditt, Jason E. Lang, Gary G. Poehling & Riyaz H. Jinnah. (2014) Assessment of accuracy of robotically assisted unicompartmental arthroplasty. Knee Surgery, Sports Traumatology, Arthroscopy 22:8, pages 1918-1925.
Crossref
Ping-Lang Yen, Yi-Jing Chu, Shang-Wei Hsu, Jing-Heng Wang & Shuo-Suei Hung. (2014) Coordinated control of bone cutting for a CT-free navigation robotic system in total knee arthroplasty. The International Journal of Medical Robotics and Computer Assisted Surgery 10:2, pages 180-186.
Crossref
Ahmad Taher Azar & M. Sam Eljamel. 2014. Robotics. Robotics 1116 1147 .
M. E. Hagen & M. J. Curet. 2014. Robotic Surgery. Robotic Surgery 21 29 .
Guoyan Zheng & Lutz-P. Nolte. 2014. Intraoperative Imaging and Image-Guided Therapy. Intraoperative Imaging and Image-Guided Therapy 647 659 .
Ferdinando Rodriguez y Baena, Trevor Hawke & Matjaz Jakopec. (2013) A bounded iterative closest point method for minimally invasive registration of the femur. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 227:10, pages 1135-1144.
Crossref
Shuhei Asano, Shogo Okamoto & Yoji Yamada. (2013) Toward Augmented Reality of Textures: Vibrotactile High-Frequency Stimuli Mask Texture Perception to Be Rougher or Smoother?. Toward Augmented Reality of Textures: Vibrotactile High-Frequency Stimuli Mask Texture Perception to Be Rougher or Smoother?.
Luca Bascetta, Gianni Ferretti, Gianantonio Magnani & Paolo Rocco. (2013) Walk-through programming for robotic manipulators based on admittance control. Robotica 31:07, pages 1143-1153.
Crossref
Emmanuel Thienpont, Peter Fennema & Andrew Price. (2013) Can technology improve alignment during knee arthroplasty. The Knee 20, pages S21-S28.
Crossref
James MooreJrJr & Duncan MaitlandKevin Cleary & Charles Nguyen. 2013. Biomedical Technology and Devices, Second Edition. Biomedical Technology and Devices, Second Edition 727 754 .
Edoardo Lopez, Ka-Wai Kwok, Christopher J. Payne, Petros Giataganas & Guang-Zhong Yang. (2013) Implicit Active Constraints for robot-assisted arthroscopy. Implicit Active Constraints for robot-assisted arthroscopy.
Daniel O Kendoff & Andrew D PearleBrett BellLutz P NolteMarco-Domenico CaversaccioStefan Weber. 2013. Robotic Surgery: Applications and Advances. Robotic Surgery: Applications and Advances 6 16 .
Daniel O Kendoff & Andrew D PearleMustafa CitakDaniel O KendoffAndrew D Pearle. 2013. Robotic Surgery: Applications and Advances. Robotic Surgery: Applications and Advances 90 100 .
Daniel O Kendoff & Andrew D Pearle. 2013. Robotic Surgery: Applications and Advances. Robotic Surgery: Applications and Advances.
Eun-Kyoo Song, Jong-Keun Seon, Ji-Hyeon Yim, Nathan A. Netravali & William L. Bargar. (2013) Robotic-assisted TKA Reduces Postoperative Alignment Outliers and Improves Gap Balance Compared to Conventional TKA. Clinical Orthopaedics & Related Research 471:1, pages 118-126.
Crossref
Mustafa Citak, Andrew D. Pearle & Daniel O. Kendoff. 2013. Computer and Template Assisted Orthopedic Surgery. Computer and Template Assisted Orthopedic Surgery 105 110 .
Shaolong Kuang, Kwok-sui Leung, Tianmiao Wang, Lei Hu, Elvis Chui, Wenyong Liu & Yu Wang. (2012) A novel passive/active hybrid robot for orthopaedic trauma surgery. The International Journal of Medical Robotics and Computer Assisted Surgery 8:4, pages 458-467.
Crossref
D. Raabe, S. Dogramadzi & R. Atkins. (2012) Semi-automatic percutaneous reduction of intra-articular joint fractures - An initial analysis. Semi-automatic percutaneous reduction of intra-articular joint fractures - An initial analysis.
F J Grandinetti, A M de S Soares, W de Q Lamas & L C S Goes. (2011) Notes on vibration control of a micro/macromanipulator mounted on a flexible structure. Proceedings of the Institution of Mechanical Engineers, Part K: Journal of Multi-body Dynamics 226:1, pages 72-82.
Crossref
Ahmad Taher Azar & M. Sam Eljamel. 2012. Prototyping of Robotic Systems. Prototyping of Robotic Systems 253 287 .
C. Plaskos, J.A. Koenig & C.E. Ponder. 2012. Medical Robotics. Medical Robotics 113 P2 .
Nikolai Hungr, Bradley Roger, Antony J. Hodgson & Christopher Plaskos. (2012) Dynamic Physical Constraints: Emulating Hard Surfaces with High Realism. IEEE Transactions on Haptics 5:1, pages 48-57.
Crossref
Sabine Mai, Werner E. Siebert & Peter F. Heeckt. 2012. Insall &amp Scott Surgery of the Knee. Insall &amp Scott Surgery of the Knee 1269 1274 .
Vincent Francoise, Anis Sahbani & Guillaume Morel. (2011) A comanipulation device for orthopedic surgery that generates geometrical constraints with real-time registration on moving bones. A comanipulation device for orthopedic surgery that generates geometrical constraints with real-time registration on moving bones.
Karthikeyan Ponnusamy, Catherine Mohr & Myriam J. Curet. (2011) Clinical Outcomes With Robotic Surgery. Current Problems in Surgery 48:9, pages 577-656.
Crossref
Young Soo Chun, Kang Il Kim, Yoon Je Cho, Yoon Hyuk Kim, Myung Chul Yoo & Kee Hyung Rhyu. (2011) Causes and Patterns of Aborting a Robot-Assisted Arthroplasty. The Journal of Arthroplasty 26:4, pages 621-625.
Crossref
Kang-Il KimKee-Hyung RhyuKye-Youl ChoDae-Seok Huh. (2011) Computer-Assisted Total Hip Arthroplasty. The Journal of the Korean Hip Society 23:4, pages 229.
Crossref
Liangjing Yang, Rong Wen, Jing Qin, Chee-Kong Chui, Kah-Bin Lim & Stephen Kin-Yong Chang. (2010) A Robotic System for Overlapping Radiofrequency Ablation in Large Tumor Treatment. IEEE/ASME Transactions on Mechatronics 15:6, pages 887-897.
Crossref
C J Coulson, A P Reid & D W Proops. (2010) Robotics can lead to a reproducibly high-quality operative result for ear, nose, and throat patients. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 224:6, pages 735-742.
Crossref
L Yang, CB Chng, CK Chui & DPC Lau. (2010) Model-based design analysis for programmable remote center of motion in minimally invasive surgery. Model-based design analysis for programmable remote center of motion in minimally invasive surgery.
P-L Yen & B L Davies. (2009) Active constraint control for image-guided robotic surgery. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 224:5, pages 623-631.
Crossref
Ferdinando Rodriguez y Baena & Brian Davies. (2009) Robotic surgery: from autonomous systems to intelligent tools. Robotica 28:02, pages 163.
Crossref
Qinjun Du. (2009) Workspace Analysis of the Needle Driven Robot. Workspace Analysis of the Needle Driven Robot.
Wael Dandachli, Amgad Nakhla, Farhad Iranpour, Vijayaraj Kannan & Justin P. Cobb. (2008) Can the Acetabular Position be Derived from a Pelvic Frame of Reference?. Clinical Orthopaedics and Related Research 467:4, pages 886-893.
Crossref
Z T H Tse, H Elhawary, M Rea, I Young, B L Davis & M Lamperth. (2008) A haptic unit designed for magnetic-resonance-guided biopsy. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 223:2, pages 159-172.
Crossref
M.A. Hafez, B. Jaramaz & A.M. DiGioiaIIIIII. 2009. Surgical Treatment of Hip Arthritis. Surgical Treatment of Hip Arthritis 502 507 .
Brian Davies. (2008) A Review of the State-of-the-Art of "Smart" Systems in Surgery. A Review of the State-of-the-Art of "Smart" Systems in Surgery.
Gabor Fichtinger, Peter Kazanzides, Allison M. Okamura, Gregory D. Hager, Louis L. Whitcomb & Russell H. Taylor. (2008) Surgical and interventional robotics: Part II. IEEE Robotics & Automation Magazine 15:3, pages 94-102.
Crossref
Qinjun Du. (2008) Study on distributed control system for a medical robot. Study on distributed control system for a medical robot.
Qinjun Du. (2008) Dexterity analysis of radio frequency ablation robot. Dexterity analysis of radio frequency ablation robot.
Xing-Guang Duan, Gui-Bin Bian, Yuan-Feng Li, Hong-Lei Shen, Qiang Huang, Yakang Dai & Min Xu. (2008) Trajectory planning and 3-D image reconstruction of an ultrasound guided robot aiming radio frequency ablation surgery. Trajectory planning and 3-D image reconstruction of an ultrasound guided robot aiming radio frequency ablation surgery.
Qinjun Du & Xueyi Zhang. (2008) Manipulability analysis and design of radio frequency ablation robot. Manipulability analysis and design of radio frequency ablation robot.
Wenqiang Zhang & Xuemei Huang. (2008) Small Robotic Assistant for Knee Surgery in Laboratory. Small Robotic Assistant for Knee Surgery in Laboratory.
Qinjun Du & Xueyi Zhang. (2008) Research on robotic technologies for ultrasound guided radio frequency ablation surgery. Research on robotic technologies for ultrasound guided radio frequency ablation surgery.
Russell H. Taylor & Peter Kazanzides. 2008. Advances in COMPUTERS - Emerging Technologies. Advances in COMPUTERS - Emerging Technologies 219 260 .
Russell H. Taylor & Peter Kazanzides. 2008. Biomedical Information Technology. Biomedical Information Technology 393 416 .
Justin P Cobb, Vijaraj Kannan, Klaus Brust & Gow Thevendran. (2007) Navigation Reduces the Learning Curve in Resurfacing Total Hip Arthroplasty. Clinical Orthopaedics & Related Research 463, pages 90-97.
Crossref
Wolfram H. Kluge. (2007) (iv) Computer-assisted knee replacement techniques. Current Orthopaedics 21:3, pages 200-206.
Crossref
Jenny Dankelman, Cornelis Kees A. Grimbergen & Henk G. Stassen. (2007) New Technologies Supporting Surgical Intervenltions and Training of Surgical Skills - A Look at Projects in Europe Supporting Minimally Invasive Techniques. IEEE Engineering in Medicine and Biology Magazine 26:3, pages 47-52.
Crossref
Qinjun Du. (2007) Study on Medical Robot System of Minimally Invasive Surgery. Study on Medical Robot System of Minimally Invasive Surgery.
Qinjun Du & Xueyi Zhang. (2007) Kinematics Analysis and Motion Control of Radio Frequency Ablation Surgical Robot. Kinematics Analysis and Motion Control of Radio Frequency Ablation Surgical Robot.
Qinjun Du, Xueyi Zhang & Li Zou. (2007) Design Optimization of a Minimally Invasive Surgical Robot. Design Optimization of a Minimally Invasive Surgical Robot.
B L Davies, F M Rodriguez y Baena, A R W Barrett, M P S F Gomes, S J Harris, M Jakopec & J P Cobb. (2007) Robotic control in knee joint replacement surgery. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 221:1, pages 71-80.
Crossref
BRIAN L. DAVIES, FERDINANDO RODRIGUEZ, MATJAZ JAKOPEC, SIMON J. HARRIS, ADRIAN BARRETT, PAULA GOMES, JOHAN HENCKEL & JUSTIN COBB. (2011) THE ACROBOT ® SYSTEM FOR ROBOTIC MIS TOTAL KNEE AND UNI-CONDYLAR ARTHROPLASTY . International Journal of Humanoid Robotics 03:04, pages 415-428.
Crossref
Qinjun Du, Qiang Huang, Chuncheng Liu & Weimin Zhang. (2006) Research on Control System of Radio Frequency Ablation Surgical Robot. Research on Control System of Radio Frequency Ablation Surgical Robot.
Qinjun Du & Xueyi Zhang. (2006) Fuzzy PID Control With \alpha Factor for Medical Robot of Radio Frequency Ablation. Fuzzy PID Control With \alpha Factor for Medical Robot of Radio Frequency Ablation.
Qinjun Du, Qiang Huang, Libo Tian & Chuncheng Liu. (2006) Mechanical Design and Control System of a Minimally Invasive Surgical Robot System. Mechanical Design and Control System of a Minimally Invasive Surgical Robot System.
Brian Davies. (2006) Essay: Medical robotics—a bright future. The Lancet 368, pages S53-S54.
Crossref
J. HenckelR. RichardsK. LozhkinS. HarrisF. M. Rodriguez y BaenaA. R. W. BarrettJ. P. Cobb. (2006) Very low-dose computed tomography for planning and outcome measurement in knee replacement. The Journal of Bone and Joint Surgery. British volume 88-B:11, pages 1513-1518.
Crossref
Venita Chandra, Sanjeev Dutta & Craig T. Albanese. (2006) Surgical robotics and image guided therapy in pediatric surgery: Emerging and converging minimal access technologies. Seminars in Pediatric Surgery 15:4, pages 267-275.
Crossref
B. Davies, M. Jakopec, S.J. Harris, F. Rodriguez y Baena, A. Barrett, A. Evangelidis, P. Gomes, J. Henckel & J. Cobb. (2006) Active-Constraint Robotics for Surgery. Proceedings of the IEEE 94:9, pages 1696-1704.
Crossref
B. Jaramaz, M.A. Hafez & A.M. DiGioia. (2006) Computer-Assisted Orthopaedic Surgery. Proceedings of the IEEE 94:9, pages 1689-1695.
Crossref
R.H. Taylor. (2006) A Perspective on Medical Robotics. Proceedings of the IEEE 94:9, pages 1652-1664.
Crossref
K.W. Chong, M.K. Wong, I.S. Rikhraj & T.S. Howe. (2006) The use of computer navigation in performing minimally invasive surgery for intertrochanteric hip fractures—The experience in Singapore. Injury 37:8, pages 755-762.
Crossref
J. CobbJ. HenckelP. GomesS. HarrisM. JakopecF. RodriguezA. BarrettB. Davies. (2006) Hands-on robotic unicompartmental knee replacement. The Journal of Bone and Joint Surgery. British volume 88-B:2, pages 188-197.
Crossref
Sejal P. Dharia & Tommaso Falcone. (2005) Robotics in reproductive medicine. Fertility and Sterility 84:1, pages 1-11.
Crossref
W. Korb, R. Marmulla, J. Raczkowsky, J. Mühling & S. Hassfeld. (2004) Robots in the operating theatre—chances and challenges. International Journal of Oral and Maxillofacial Surgery 33:8, pages 721-732.
Crossref
Abhilash Pandya & Gregory Auner. (2004) Robotics technology: a journey into the future. Urologic Clinics of North America 31:4, pages 793-800.
Crossref
Warren Macdonald, Jorma Styf, Lars V. Carlsson & C.Magnus Jacobsson. (2004) Improved tibial cutting accuracy in knee arthroplasty. Medical Engineering & Physics 26:9, pages 807-812.
Crossref
Peter Berkelman, Jocelyne Troccaz & Philippe Cinquin. (2004) Body-Supported Medical Robots: A Survey. Journal of Robotics and Mechatronics 16:5, pages 513-519.
Crossref
David B. Camarillo, Thomas M. Krummel & J.Kenneth SalisburyJr.Jr.. (2004) Robotic technology in surgery: Past, present, and future. The American Journal of Surgery 188:4, pages 2-15.
Crossref
R. Darin Ellis, Alex Cao, Abhilash Pandya, Anthony Composto, Mathew Chacko, Michael Klein & Greg Auner. (2016) Optimizing the Surgeon-Robot Interface: The Effect of Control-Display Gain and Zoom Level on Movement Time. Proceedings of the Human Factors and Ergonomics Society Annual Meeting 48:15, pages 1713-1717.
Crossref
Michael D. DiodatoJrJr, Sunil M Prosad, Mary E. Klingensmith & Ralph J. DamianoJrJr. (2004) Robotics in surgery. Current Problems in Surgery 41:9, pages 752-810.
Crossref
Deon F. Louw, Tim Fielding, Paul B. McBeth, Dennis Gregoris, Perry Newhook & Garnette R. Sutherland. (2004) Surgical Robotics: A Review and Neurosurgical Prototype Development. Neurosurgery 54:3, pages 525-537.
Crossref
Gabriel Brisson, Takeo Kanade, Anthony DiGioia & Branislav Jaramaz. 2004. Medical Image Computing and Computer-Assisted Intervention – MICCAI 2004. Medical Image Computing and Computer-Assisted Intervention – MICCAI 2004 105 112 .
Nicholas Stylopoulos & David Rattner. (2003) Robotics and ergonomics. Surgical Clinics of North America 83:6, pages 1321-1337.
Crossref
M. Jakopec, F. Rodriguez Baena, S.J. Harris, P. Gomes, J. Cobb & B.L. Davies. (2003) The hands-on orthopaedic robot "acrobot": early clinical trials of total knee replacement surgery. IEEE Transactions on Robotics and Automation 19:5, pages 902-911.
Crossref
R.H. Taylor & D. Stoianovici. (2003) Medical robotics in computer-integrated surgery. IEEE Transactions on Robotics and Automation 19:5, pages 765-781.
Crossref
George Zouridakis & James MooreCharles Nguyen & Kevin Cleary. 2003. Biomedical Technology and Devices Handbook. Biomedical Technology and Devices Handbook.
Nobuhiko Sugano. (2003) Computer-assisted orthopedic surgery. Journal of Orthopaedic Science 8:3, pages 442-448.
Crossref
Matjaz Jakopec, Simon J. Harris, Ferdinando Rodriguez y Baena, Paula Gomes & Brian L. Davies. (2003) The Acrobot ® system for total knee replacement . Industrial Robot: An International Journal 30:1, pages 61-66.
Crossref
Jeremy W. Cannon, Robert D. Howe, Pierre E. Dupont, John K. Triedman, Gerald R. Marx & Pedro J. del Nido. (2003) Application of robotics in congenital cardiac surgery. Seminars in Thoracic and Cardiovascular Surgery: Pediatric Cardiac Surgery Annual 6:1, pages 72-83.
Crossref
M. Börner & W. Ditzen. 2003. Navigation und Robotic in der Gelenk- und Wirbelsäulenchirurgie. Navigation und Robotic in der Gelenk- und Wirbelsäulenchirurgie 435 448 .
Kiyoshi Matsumiya, Yasuyuki Momoi, Etsuko Kobayashi, Nobuhiko Sugano, Kazuo Yonenobu, Hiroshi Inada, Takayuki Tsuji & Ichiro Sakuma. 2003. Medical Image Computing and Computer-Assisted Intervention - MICCAI 2003. Medical Image Computing and Computer-Assisted Intervention - MICCAI 2003 271 278 .
Steven W. Guyton. (2002) Robotic surgery: the computer-enhanced control of surgical instruments. Otolaryngologic Clinics of North America 35:6, pages 1303-1316.
Crossref
M. Jakopec, S.J. Harris, F. Rodriguez y Baena, P. Gomes & B.L. Davies. (2002) Acrobot: a "hands-on" robot for total knee replacement surgery. Acrobot: a "hands-on" robot for total knee replacement surgery.
B.L. Davies. (2002) Robotic surgery: at the cutting edge of technology. Robotic surgery: at the cutting edge of technology.
Matjaž Jakopec, Simon J. Harris, Ferdinando Rodriguez y Baena, Paula Gomes, Justin Cobb & Brian L. Davies. 2002. Medical Image Computing and Computer-Assisted Intervention — MICCAI 2002. Medical Image Computing and Computer-Assisted Intervention — MICCAI 2002 256 263 .

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