CAOS 2023: Volume InformationProceedings of The 22nd Annual Meeting of the International Society for Computer Assisted Orthopaedic Surgery25 articles•121 pages•Published: March 8, 2024 PapersLuisa Berger, Kunihiko Tokunaga and Klaus Radermacher 1-3 | Luisa Berger, Kunihiko Tokunaga and Klaus Radermacher 4-7 | Michel Bonnin, Florian Müller-Fouarge, Théo Estienne, Samir Bekadar, Salvatore Ratano, Yannick Carrillon, Charlotte Pouchy and Tarik Ait Siselmi 8-12 | Guntarat Chinvattanachot, Jithayut Sueajui, Urawit Piyapromdee, Tana Rattanakitkoson and Yingyong Suksathien 13-19 | Arnaud Clavé, Guillaume Dardenne, Ludivine Maintier, Ehouarn Maguet, Eric Stindel and Valérie Burdin 20-25 | Sonja Grothues and Klaus Radermacher 26-30 | Avichai Haimi, Ori Safran, Shaul Beyth and Leo Joskowicz 31-34 | Matthew Hickey, Asim Khan, Joseph Baines, David J Allen, Findlay Welsh, Kamal Deep, Alistair Ewen, François Leitner, Antony J. Hodgson and Frederic Picard 35-39 | Matthew Hickey, Asim Khan, Joseph Baines, David J Allen, Findlay Welsh, Kamal Deep, Alistair Ewen, François Leitner, Antony J. Hodgson and Frederic Picard 40-44 | Matthew D Hickey, Asim Khan, Joseph Baines, David Allen, Findlay Welsh, Kamal Deep, Alistair Ewen, François Leitner, Antony J Hodgson and Frederic Picard 45-49 | Matthew D Hickey, Asim Khan, Joseph Baines, David J Allen, Findlay Welsh, Kamal Deep, Alistair Ewen, François Leitner, Antony J. Hodgson and Frederic Picard 50-55 | Toshihito Hiraiwa and Kunihiko Tokunaga 56-58 | Toshihito Hiraiwa and Kunihiko Tokunaga 59-61 | Sotaro Kono, Keisuke Uemura, Soufi Mazen, Makoto Iwasa, Kazuma Takashima, Hidetoshi Hamada, Yoshito Otake, Masaki Takao, Yoshinobu Sato, Seiji Okada and Nobuhiko Sugano 62-65 | Ludivine Maintier, Arnaud Clavé, Ehouarn Maguet, Eric Stindel, Valérie Burdin and Guillaume Dardenne 66-69 | Prashant U. Pandey, Emily K. Bliven, Pierre Guy, Kelly A. Lefaivre and Antony J. Hodgson 70-74 | Lovis Phlippen, Benjamin Hohlmann and Klaus Radermacher 75-81 | Andrew Shimmin, Ishaan Jagota, Brett Fritsch, David Parker, Joshua Twiggs and Brad Miles 82-85 | Andrew Shimmin, David Liu, Brett Fritsch, David Parker, Ishaan Jagota, Joshua Twiggs and Brad Miles 86-89 | Spyridon Souipas, Anh Nguyen, Stephen Laws, Brian Davies and Ferdinando Rodriguez Y Baena 90-93 | Pornpavit Sriphirom, Pitee Wongyongsilp and Woraphot Wicharn 94-105 | Avigail Suna, Amit Davidson, Yoram Weil and Leo Joskowicz 106-109 | Atsushi Taninaka, Tamon Kabata, Yoshitomo Kajino, Daisuke Inoue, Takaaki Ohmori, Yuki Yamamuro, Tomoyuki Kataoka, Yoshitomo Saiki, Yu Yanagi, Musashi Ima, Takahiro Iyobe and Hiroyuki Tsuchiya 110-114 | Kunihiko Tokunaga and Toshihito Hiraiwa 115-118 | Kwok-Chuen Wong, Yan Edgar Sun and Shekhar Madhukar Kumta 119-121 |
Keyphrases3D mesh, 3D pose estimation, 3D printed model, 3D printer, 3D printing, acetabular bone defect, Anterior knee pain, Artificial Intelligence, Bone, Bone tumors, bone–implant interface, Cemented stem, Clinical outcome prediction, clinical outcomes, Component alignment, computational modelling, computer assisted surgery, computer navigation, Computer Tomography, conventional total knee arthroplasty, Convolutional Neural Network, Coronal Plane Alignment of the Knee (CPAK), CT-based navigation2, CT scan, CT scans, curved periacetabular osteotomy, Custom-made implant, Database study3, DDH, deep learning3, Developmental hip dysplasia, distal femoral landmark registration, extrapolation, femoral head coverage, Forearm X-ray, Functional axial rotation, Gap balancing, Glenoid bone loss computation, HIP, Hip dysplasia, hip score, Holograms, image analysis, image segmentation, Implant Design, knee, knee joint, Lower limb alignment, machine learning, manual localization of anatomical landmarks, Measured-resection, Mixed Reality, Model-based computation, monocular, Muscle Cross-Sectional Area, muscle volume, Navigation, nnU-Net, Orthopaedic Fixation, Orthopaedic Oncology, orthopedics, over-/underhag, Patellofemoral joint, Patellofemoral ligament, Pelvic fractures, pelvic tilt, population study, Postoperative outcome, preoperative planning2, psoas syndrome, Radial fractures, Radiographic parameters, registration, Robotic-assisted total hip arthroplasty, Robotic-assisted total knee arthroplasty, robotic total hip arthroplasty, robotic ultrasound system, Segmentation2, Shoulder CT scan, Surgical decision support2, surgical navigation5, Surgical outcome prediction, surgical planning2, Surgical Tool Detection, surgical tool localisation, TEA projection, THA2, thigh circumference, three dimensions, Tibial rotation, Tibiofemoral rotation, Tibiofemoral rotational mismatch, TKA2, total hip arthroplasty3, Total Knee Arthoplasty, Total knee arthroplasty6, Ultrasound2. |
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