Proceedings of The 20th Annual Meeting of the International Society for Computer Assisted Orthopaedic Surgery42 articles•204 pages•Published: December 13, 2022 PapersPages 1-4 | Pages 5-9 | Pages 10-14 | Pages 15-18 | Pages 19-24 | Pages 25-30 | Pages 31-36 | Pages 37-40 | Pages 41-44 | Pages 45-50 | Pages 51-55 | Pages 56-61 | Pages 62-65 | Pages 66-68 | Pages 69-72 | Pages 73-76 | Pages 77-80 | Pages 81-88 | Pages 89-98 | Pages 99-102 | Pages 103-106 | Pages 107-110 | Pages 111-115 | Pages 116-120 | Pages 121-124 | Pages 125-128 | Pages 129-133 | Pages 134-137 | Pages 138-143 | Pages 144-147 | Prashant Pandey, Benjamin Hohlmann, Peter Brößner, Ilker Hacihaliloglu, Keiran Barr, Tamas Ungi, Oliver Zettinig, Raphael Prevost, Guillaume Dardenne, Zian Fanti, Wolfgang Wein, Eric Stindel, Fernando Arambula Cosio, Pierre Guy, Gabor Fichtinger, Klaus Radermacher and Antony J. Hodgson Pages 148-153 | Pages 154-157 | Pages 158-161 | Pages 162-165 | Pages 166-169 | Pages 170-174 | Pages 175-179 | Pages 180-184 | Pages 185-189 | Pages 190-194 | Pages 195-198 | Pages 199-204 |
Keyphrases2D-3D Reconstruction, 3D imaging2, 3D reconstruction, Accuracy4, Active Constraints, alignment2, Anatomic Total Shoulder Arthroplasty2, Arthroplasty, Artificial Intelligence and deep learning, atrophy, Augmented Reality2, Automated Segmentation, Automatic radiographic measurement, balancing, Bone, Bone Segmentation2, Bone tumor Ablation, caos2, challenge, Classification of proximal humeral fractures, clinical assessment, clinical followup, Cloud based software as a service, CNN2, collaborative robot, computer aided orthopaedic surgery, Computer Assisted Navigation, computer-assisted, Computer-assisted orthopaedic surgery2, Convolutional Neural Network, CT scans, CT-guided Arthroplasty, cup orientation, custom implants, deep learning5, Distal radius fracture, dynamometry, evidence-based, Expectation management, experience, fatty infiltration, finite element method, Force-controlled distractor4, Friedman Axis, functional anatomy, Healthcare Outcome assessment, image segmentation, image-based planning, Imageless, in vivo validation, Industry, Innovation, interbone parameters, Joint distraction2, Joint gaps, kinematics, knee, Knee arthroplasty2, knee joint2, knee joint replacement, knee laxity, knee morphology2, Knee Replacement Arthroplasty, laminectomy, lateral subvastus approach, Ligament Balance, ligament balancing, Ligament Laxity4, machine learning2, medical application, minimally invasive intervention, MRI, Muscle fat fraction, muscle power, muscle strength, Navigation5, neuromuscular injury, normative recovery, optical tracking, Orthopaedics, Orthopedic Surgeons statistics and numerical data, over-constraint kinematics, pain scores, Patient outcome, Patient Outcome Prediction, Patient selection, patient-specific simulation, Pedicular screw placement, Pelvic mobility, Pixee, Postoperative care, preoperative planning4, Preoperative Planning Software, Primary, ProM, Radiographic parameters, range of motion, Rehabilitation, Reliability2, remote monitoring, Reverse Total Shoulder Arthroplasty2, robot assisted surgery, robotic surgery2, rotator cuff2, Rotator Cuff Tear, Safe Zone, safety, Segmentation3, Shape and pose models, shoulder2, Shoulder Arthroplasty, shoulder muscles, soft tissue, Soft-tissue balance4, Spine surgery, Stress radiology2, surgery approach, Surgical decision support, Surgical navigation system, surgical robot, THA, Three-dimensional pattern analysis of proximal humeral fractures, TKA4, TKP, Total, total hip arthroplasty, Total knee arthroplasty14, Total Shoulder Arthroplasty3, Transfomer, U-Net, Ultrasound2, Ultrasound imaging, Unified robotic sytem, Usability Assessment, varus/valgus stress test |
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