CAOS 2019: Volume InformationCAOS 2019. The 19th Annual Meeting of the International Society for Computer Assisted Orthopaedic Surgery100 articles•465 pages•Published: October 26, 2019 PapersIgnacio Aguado-Maestro, Ignacio García-Cepeda, Juan José González-Álvarez, Elisa Cebrián-Rodríguez, Javier López-Sánchez, Diego Fernández-Díez, Leandro Sierra-Matilla and Manuel García-Alonso 1-5 | Ahmed Alsinan, Michael Vives, Vishal Patel and Ilker Hacihaliloglu 6-10 | Sebastian Andress, Felix Achilles, Eduardo M. Suero, Christopher Becker, Christoph Linhart, Axel Greiner, Bianka Rubenbauer, Christian Kammerlander, Wolfgang Boecker and Simon Weidert 11-16 | Thomas Apostolou and Ioanna Chatziprodromidou 17-20 | Malte Asseln, Maximilian C. M. Fischer, Hao Yang Chan, Patrick Meere, Peter Walker and Klaus Radermacher 21-25 | Malte Asseln, Patrick Meere, Peter Walker and Klaus Radermacher 26-30 | Malte Asseln and Klaus Radermacher 31-35 | Pradipta Biswas, Sakura Sikander, Pankaj Kulkarni and Sang-Eun Song 36-39 | Christopher Blum, Christopher Plaskos, Adil Hussein and Jan A Koenig 40-45 | Charlotte Bolch, Yifei Dai, Amaury Jung and Cyril Hamad 46-48 | Peter Bollars, Anton Boeckxstaens, Jan Mievis and Daniel Janssen 49-52 | Eric Chen, Adil Husain, Nicholas Billow, Jan Koenig and Christopher Plaskos 53-56 | Zlatan Cizmic, Kaitlin Carroll, Seth Jerabek, Wayne Paprosky, Peter Sculco, Alejandro Gonzalez Della Valle, Patrick Meere, Alexander McLawhorn, Ran Schwarzkopf, Friedrich Boettner, David Mayman and Jonathan Vigdorchik 57-61 | Zlatan Cizmic, Jonathan Gabor, Nima Eftekhary, Hayeem Rudy, Michael O'Sullivan, Ran Schwarzkopf, Aaron Buckland and Jonathan Vigdorchik 62-71 | Andrea Coppolecchia, Christina Cool, David Jacofsky, David Gregory, Nipun Sodhi and Michael Mont 72-75 | Christina Cool, David Jacofsky, Kelly Seeger, Andréa Coppolecchia, Nipun Sodhi, Joseph Ehiorobo and Michael Mont 76-79 | Christina Cool, Keith Needham, Andréa Coppolecchia, Anton Khlopas, Nipun Sodhi, Joseph Ehiorobo and Michael Mont 80-83 | Meredith Crizer, Andrew Battenberg, Mikayla McGrath, Seong Kim and Jess Lonner 84-89 | Yifei Dai, Valerie Bauler, Stephan Delpech, Ian Gradisar, Phillip Lewandowski and Jefferson Craig Morrison 90-93 | Yifei Dai, Charlotte Bolch, Siyuan Gao, Amaury Jung and Cyril Hamad 94-97 | Yifei Dai, Charlotte Bolch, Amaury Jung and Cyril Hamad 98-101 | Yifei Dai, Quanjun Cui, Michael Bolognesi, Samuel Wellman, Thorsten Seyler, Yassaman Najmabadi, Charlotte Bolch and David Liu 102-105 | Guillaume Dardenne, Jean-Philippe Pluchon, Hoel Letissier, Aziliz Guezou-Philippe, Romain Gérard, Christian Lefèvre and Eric Stindel 106-109 | Alastair Darwood, Simon Hurst, Guillaume Villatte, Ryan Fenton, Fabio Tatti, Hadi El-Daou, Peter Reilly, Roger Emery and Ferdinando Rodriguez Y Baena 110-114 | Cerys Edwards, Ella Moore, Willy Theodore, Joshua Twiggs, Edgar Wakelin, David Liu and Brad Miles 115-118 | Paolo Esposito, Giovanni Francesco Solitro, Farid M.L. Amirouche, Damiano Fortuna, Arcangelo Pellegrino and Francesco Villecco 119-121 | Alistair Ewen, Jill Rae, Artaban Jeldi and Frederic Picard 122-126 | Maximilian C. M. Fischer, Kunihiko Tokunaga, Masashi Okamoto and Klaus Radermacher 127-132 | David Freccero, Justin Koh, Jeansol Kang, Chris Fang and Eric Smith 133-138 | Luke Garbarino, Nipun Sodhi, Joseph Ehiorobo, Peter Gold, Kevin Marchand, Robert Marchand, Matthew Hepinstall and Michael Mont 139-142 | Alexander Gordon 143-146 | Alexander Greene, Sandrine Polakovic, Christopher Roche and Yifei Dai 147-151 | Alexander Greene, Sandrine Polakovic, Christopher Roche and Yifei Dai 152-156 | Aziliz Guezou-Philippe, Guillaume Dardenne, Morgane Dorniol, Hoel Letissier, Christian Lefèvre and Eric Stindel 157-160 | Juliana Habor, Maximilian C. M. Fischer, Kunihiko Tokunaga, Masashi Okamoto and Klaus Radermacher 161-165 | Emily Hampp, Laura Scholl, Md Haque, Chunyan Wu, Geoffrey Westrich and Michael Mont 166-168 | Emily Hampp, Nipun Sodhi, Laura Scholl, Matthew Deren, Zachary Yenna, Geoffrey Westrich and Michael Mont 169-172 | Matthew Hickey, Pierre Guy and Antony J. Hodgson 173-176 | Benjamin Hohlmann and Klaus Radermacher 177-180 | Shuo-Suei Hung and Ping-Lang Yen 181-183 | Hisham Iqbal, Fabio Tatti and Ferdinando Rodriguez Y Baena 184-188 | Artaban Jeldi, Nicholas Holloway, Alistair Ewen and Frederic Picard 189-192 | Jean-Yves Jenny and Dominique Saragaglia 193-196 | Jean-Yves Jenny and Dominique Saragaglia 197-201 | Jean-Yves Jenny and Dominique Saragaglia 202-205 | Seth Jerabek, Russell Cohen, Alana Levine, Alice Cruz and Laura Scholl 206-209 | Jan Koenig, Sami Shalhoub, Eric Chen and Christopher Plaskos 210-214 | Chumroonkiet Leelasestaporn and Tomorn Tarnpichprasert 215-222 | Hollie Leonard, Alistair Ewen and Kamal Deep 223-227 | Xiaoyun Liu, Hongzhi Hu, Zhengwu Shao and Mao Xie 228-233 | Tyler Luthringer, David Novikov, Jonathan Gabor, Hayeem Rudy, Zlatan Cizmic, Siddharth Mahure, Ran Schwarzkopf, Roy Davidovitch and Jonathan Vigdorchik 234-240 | Robert Marchand, Nipun Sodhi, Hiba Anis, Joseph Ehiorobo, Jared Newman, Kevin Marchand, Kelly Taylor, Caitlin Condrey, Matthew Hepinstall and Michael Mont 241-245 | Michael Masini, Alana Levine and Alice Cruz 246-250 | Rachel Mays, Jessica Benson, Jeffrey Muir, Peter White and Morteza Meftah 251-256 | John McLoughlin, Mo Mathew and Stephen Grant 257-261 | Morteza Meftah, Vinnay Siddappa, Jeffery Muir and Peter White 262-270 | Ryan Moore, Thomas Coon, Jennifer DeBattista, Sarah Shi, Alexandra Valentino and Manoshi Bhowmik-Stoker 271-274 | Nobuo Nakamura and Nobuhiko Sugano 275-277 | Maged Nasan, Yannick Morvan, Guillaume Dardenne, Jean Chaoui and Eric Stindel 278-281 | David Novikov, Tyler Luthringer, Zlatan Cizmic, Siddharth Mahure, Nima Eftekhary, Roy Davidovitch and Jonathan Vigdorchik 282-288 | Jérôme Ogor, Guillaume Dardenne, Salaheddine Sta, Julien Bert, Hoël Letissier, Eric Stindel and Chafiaa Hamitouche 289-292 | Thomas Overbergh, Pieter Severijns, Lieven Moke, Ilse Jonkers and Lennart Scheys 293-296 | Prashant Pandey, Hridayi Patel, Pierre Guy, Ilker Hacihalilogu and Antony J. Hodgson 297-300 | Prashant Pandey, Niamul Quader, Kishore Mulpuri, Pierre Guy, Rafeef Garbi and Antony J. Hodgson 301-305 | Xiao Qi, Michael Vives and Ilker Hacihaliloglu 306-310 | Maria Paz Quilez, Hendrik Pieter Delport, Roel Wirix-Speetjens, Mariska Wesseling, Maria Angeles Perez Anson, Ilse Jonkers and Jos Vander Sloten 311-314 | Raga Rajaravivarma, Sally Liarno, Tatyana Kaverina, Sonia Donde and Emily Sneddon 315-318 | Takashi Sakai, Hidetoshi Hamada, Masaki Takao and Nobuhiko Sugano 319-321 | Laura Scholl, Emily Hampp, Vincent Alipit, Antonia Chen, Michael Mont and Anil Bhave 322-324 | Laura Scholl, Emily Hampp, Vincent Alipit, Michael Mont, Anil Bhave and Antonia Chen 325-327 | Laura Scholl, Emily Hampp, Kevin de Souza, Ta-Cheng Chang, Geoffrey Westrich and Michael Mont 328-330 | Laura Scholl, Frank Kolisek, Antonia Chen, Anil Bhave, Adam Freedhand, Emily Hampp, Vincent Alipit and Michael Mont 331-333 | Sukhi Singh, Timothy Lee and Joshua Giles 334-337 | John Sledge, Stephane Lavallee, Sophie Genna and Laurence Chabanas 338-343 | Austin Smith, Christian Eccles, Samrath Bhimani, Kevin Denehy, Rohat Bhimani, Langan Smith and Arthur Malkani 344-350 | Nipun Sodhi, Anton Khlopas, Joseph Ehiorobo, Caitlin Condrey, Robert Marchand, Matthew Hepinstall and Michael Mont 351-353 | Pornpavit Sriphirom, Thakrit Chompoosaeng and Bordin Boonton 354-358 | Kazuma Takashima, Takashi Sakai, Hidetoshi Hamada, Wataru Ando, Masaki Takao and Nobuhiko Sugano 359-361 | Kittikun Thienthong, Pornpavit Sriphirom, Anuchit Vejjaijiva and Soros Suwansawaiphol 362-365 | Kunihiko Tokunaga 366-369 | Jérôme Tonetti, Mehdi Boudissa, Gael Kerschbaumer and Marc Prod'Homme 370-375 | Joshua Twiggs, Edgar Wakelin, Stephen McMahon and Brad Miles 376-379 | Joshua Twiggs, Edgar Wakelin, Justin Roe, Brett Fritsch and Brad Miles 380-383 | Philippe Van Overschelde, Stefaan Van Onsem, Ward Servaes and Alain Kalmar 384-387 | Anuchit Vejjaijiva, Pornpavit Sriphirom, Chalit Saepoo, Weeravut Ounjitti and Soros Suwansawaiphol 388-391 | Geert Vermeersch 392-397 | Matthias Verstraete, Michael Conditt, Moby Parsons, Joseph Decerce, Gordon Goodchild, Alexander Greene and Chris Roche 398-401 | Jonathan Vigdorchik, Zlatan Cizmic, David Novikov, Michael Bradley, Michael Miranda, David Watson, Douglas Dennis and Stefan Kreuzer 402-408 | Manuel Vossel, Matías de La Fuente, Dario Wieschebrock, Okan Yilmaz, Klaus Radermacher and Armin Janß 409-414 | Jürgen Wahrburg, Oliver Gieseler and Hubert Roth 415-417 | Edgar Wakelin, Joshua Twiggs, Brett Fritsch, Michael Solomon and Brad Miles 418-421 | Peihui Wu, Weiming Liao and Yan Kang 422-427 | Hirotake Yo, Tessyu Ikawa and Yoshito Minami 428-431 | Gabriela Zapata, Inigo Sanz-Pena, Matthias Verstraete, Patrick Meere and Peter Walker 432-435 | Jenny Zhang, Nipun Sodhi, Kristina Dushaj, Michael Mont and Matthew Hepinstall 436-439 | Jingwei Zhang, Manoshi Bhowmik-Stoker, Laura Scholl, Caitlin Condrey, Kirby Hitt, Kevin Marchand and Robert Marchand 440-443 | Jingwei Zhang, Manoshi Bhowmik-Stoker, Laura Scholl, Caitlin Condrey, Kevin Marchand and Robert Marchand 444-447 | Jingwei Zhang, Scott Persohn, Manoshi Bhowmik-Stoker, Jason Otto, Meenakshisundaram Paramasivam, Ahmad Wahdan, Robert H. Choplin and Paul Territo 448-452 | Linli Zheng, Yangyang Lin, Xiaoyan Zhang, Qianhui Ling, Weiming Liao and Peihui Wu 453-459 | Linli Zheng, Yangyang Lin, Xiaoyan Zhang, Qianhui Ling, Weiming Liao and Peihui Wu 460-465 |
Keyphrases3D pose estimation, 3D printing2, 3D registration, 3D ultrasound, absolute error, accelerometer-based computer navigation system, Accuracy2, acetabular bone stock, acetabular fractures, Achilles, Active kinematics, Additive Manufacturing3, adoption of new technology, Alignment outliers, All polyethylene tibia, Amis, Anatomic Total Shoulder Arthroplasty2, anatomical tibial cut2, anatomy, Ankle, Anterior Minimal Invasive Surgery, AP radiograph, Arthoplasty, Arthroplasty8, Arthroplsaty, Augmented Glenoid2, Augmented Reality, Autografting, Bicompartmental knee arthroplasty, Big Data Analysis2, biofeedback, Biomechanics2, bone-cup coverage, Bone mineral density, Bone recuts, Bone Segmentation3, bone shadow, bone tumor, Bony preservation, Brown-Sequard syndrome, Cadaver Trial, Cartilage, CAS, Cement technique, Cervical disc herniation, complex total hip arthroplasty, Complications, Component alignment, Component position, Computed tomography-based navigation system, computer-assisted2, Computer-assisted orthopaedic surgery2, Computer-assisted orthopedic surgery4, computer assisted surgery7, computer-assisted technology, Computer assisted TKA, Computer-assisted total knee arthroplasty, computer navigation, computer simulation, Conservative Alignment, Conventional instrumentation, Conventional tibial cut, Convolutional Neural Network, Coordinate Transformation Calibration, cost analysis2, CT2, CT analytics, CT-based navigation2, CT-fluoro matching, curved periacetabular osteotomy, Cutting time, Decaf, deep learning2, depth camera2, developmental dysplasia of the hip2, Difficult Cases, Direct anterior approach2, dislocation2, Dynamic radiographs, dysplasia acetabulum, dysplastic acetabulum, EOS biplanar radiographic imaging, Euthanasia, Extended field-of-view, extr-articular deformities, Extramedullary method, Femoral component, Femoral component accuracy, femoral stem, fixation, Functional Movement, Functional radiographs, Fusion, Fuzzy Logic, Gap balance, Gaps balancing, Handheld Robot, Haptic, healing, Healthcare costs, Healthcare economics2, Hip Arthroplasty2, Hip Center, hip flexion, hip replacement, IEEE 11073 SDC, image free handheld robot in TKA, image stitching, image transformation, Implant placement accuracy, implant position optimization, integrated navigation, Integrated Operating Room, Interesting cases, Intra-operative, intra-operative 2D/3D imaging, intraoperative CBCT, J-Curves, joint replacement2, Kinematic Alignment, kinematics2, knee10, Laxity, learning curve2, Lewinnek safe zone, ligament balance knee arthroplasty, ligament balancing2, ligament elongations, Limb Alignment, load, local phase, Long term survival3, manual total knee arthroplasty, markerless, Mechanical alignment2, mechanical axis, Mechatronics, medical app, medical application, Medical Imaging, Methods of balancing, morphology2, morphology analysis, Mosaicplasty, motion analysis, multilevel modeling, musculoskeletal modeling, Navigated Control, Navigation10, navigation system, Neuromonitoring, new technologies, Open Database, Open Standards, OpenSim simulation, operative technologies2, Orthopaedics, Orthopedic & Trauma Surgery, orthopedic trauma, Osteoarthritis, Osteonecrosis of the femoral head, osteotomy, outcome5, outcomes2, Partial knee arthroplasty, Patella, patient-reported outcome, patient-reported outcomes, Patient risks, patient satisfaction, patient-specific3, Patient Specific Guides, Patient Specific Instrumentation, Patient specific instruments, patient specific surgical guide, PCL, Pelvic parameters, pelvic tilt3, pelvis, pKa, planning, porous, pre-operative navigation, Pre-operative planning2, Precision, prediction, Preoperative Templating, ProM, propensity score analysis, proximal femur, Proximal tibial cutting, Pseudarthrosis, PSI2, radiography, range of motion, Rapid Prototyping, Ratio for center of the ankle, registration3, Rehabilitation, resulting hip force, results mechanical limb alignment and balacing, retrospective analysis, Retrospective Data Analysis, revision, Revision total hip arthroplasty, revisions, Robotic2, Robotic-Arm Assisted2, Robotic-arm assisted TKA7, robotic arm-assisted total knee arthroplasty2, Robotic-Assisted4, Robotic assisted knee arthroplasty, Robotic-assisted surgery, Robotic assisted TKA3, robotic surgery, Robotic Technology, robotic total hip arthroplasty, Robotic Total Knee Arthroplasty, Robotics4, rTHA, Safe Zone2, Segmentation, Sensor assisted knee arthroplasty, sensor technology, Service Oriented Architecture, Service Oriented Device Connectivity, Short-term outcomes, shoulder, side-to-side asymmetry, simulation, smart mechanical navigation, soft tissue, Soft Tissue Damage, Soft Tissue Release, Soft Tissue Releases, software, spinal cord injury, Spinal deformity, spinal fusion surgery, spine2, Spine surgery2, spontaneous, stability, Statistical Shape Model, SterEOS, Subject Specific Modeling, surface meshes, Surgeon ergonomics3, Surgeon experience, Surgeon experiences, Surgeon safety, Surgical experience, surgical planning, Surgical profiles, surgical robot, Surgical technology, Surgical Workflows, Talar tilt chnage after CAS TKA, target zone, Technology, Tele-rehabilitation, Telos, THA4, three-dimensional, three-dimensional printing, Tibial cutting alignment, Tibial tuberosity-trochlear groove distance, Time Saving, TKA11, total hip arthroplasty15, total hip arthroplasty (THA), Total hip arthroplasy, total hip replacement, total joint arthroplasty, Total knee arthroplasty19, total knee replacement2, Tracking, transplantation, Trochlear Groove, Tuberositas tibiae, UKA2, Ultrasound7, Unicompartmental Knee Arthroplasty, unified technologies, Valgus knee, verification, vertebroplasty, Video Augmented C-arm Flouroscopy, Video - X-ray Overlay, wearable sensors, Weight bearing, X-ray, X-Ray Vision, xray templating, Young patients. |
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