CAOS 2020. The 20th Annual Meeting of the International Society for Computer Assisted Orthopaedic Surgery68 articles•315 pages•Published: September 25, 2020 PapersPages 1-7 | Pages 8-11 | Pages 12-16 | Pages 17-21 | Pages 22-27 | Pages 28-34 | Pages 35-40 | Pages 41-44 | Pages 45-48 | Pages 49-52 | Pages 53-55 | Pages 56-58 | Pages 59-60 | Pages 61-64 | Pages 65-68 | Pages 69-73 | Pages 74-77 | Pages 78-81 | Pages 82-85 | Pages 86-91 | Pages 92-96 | Pages 97-102 | Pages 103-107 | Pages 108-110 | Pages 111-116 | Pages 117-121 | Pages 122-125 | Pages 126-130 | Pages 131-134 | Pages 135-137 | Pages 138-143 | Pages 144-150 | Pages 151-154 | Pages 155-159 | Pages 160-164 | Pages 165-168 | Pages 169-173 | Pages 174-178 | Pages 179-182 | Pages 183-187 | Pages 188-192 | Pages 193-196 | Pages 197-200 | Pages 201-203 | Pages 204-210 | Pages 211-214 | Pages 215-219 | Pages 220-224 | Pages 225-230 | Pages 231-233 | Pages 234-236 | Pages 237-239 | Pages 240-245 | Pages 246-249 | Pages 250-253 | Pages 254-258 | Pages 259-263 | Pages 264-268 | Pages 269-272 | Pages 273-277 | Pages 278-282 | Pages 283-287 | Pages 288-292 | Pages 293-296 | Pages 297-300 | Pages 301-305 | Pages 306-311 | Pages 312-315 |
Keyphrases3D alignment, 3D pose estimation, 3D printing2, A-mode ultrasound, Accuracy2, acetabular fracture, Additive Manufacturing, alignment, anatomical landmarks, Anterior Pelvic Plane, Arthroplasty, Artificial Intelligence, Artificial Neural Network, Augmented mechanical instrumentation, Augmented Reality3, Automatic landmarks localization, balance, Biomechanical model, Biomechanics2, bone density, Bone Segmentation, C-arm, caos, CAOS augmentation, Central pivot, Classification, clinical outcomes, Component alignment2, Computed Tomography, computer assisted surgery4, computer vision, Computer-assisted orthopaedic surgery4, Computer-assisted orthopedic surgery3, Consultation, conventional TKA, Convolutional Neural Network2, cruciate-retaining, CT2, custom implant, data confidentiality, DDH, deep learning5, deformable registration, depth camera, depth sensor, DICOM-RTV, digital sensors, dislocation, display, femoral head coverage, Femoral roll back, fixation, Fluoroscopy, functional stability2, Gap balance, Generative Adversarial Networks, Geometric Parameter Analysis, HIP2, hip-spine, iliosacral screw insertion, Iliosacral screwing, image processing, imaging, IMD, Impingement2, implant, Implant fixation, in vivo validation, Intraoperative guidance, Intraoperative laxity curve, J-curve, Joint Balance3, joint replacement2, kinematic analysis, kinematics2, knee2, knee function, Knee MRI, knee replacement, knee surgery, landmarking, Laser Powder Bed Fusion, Lateral Decubitus Position, lateral knee., Lattice structures, learning curve, Lewinnek, ligament balancing4, ligament characterization, Ligament Laxity, Ligament tension2, load sensors, long term survivalship, Loosening, Low cost Navigation, Mako3, markerless, Markerless tracking, Measured Resection technique, Measured-resection, Medial pivot, medical robotics, Mid-flexion Instability, Midflexion Balance, Mobile bearing, mobile bearing dislocation, motion capture, Multicenter Trials, Muscle elongation, musculoskeletal model, Navigation6, Navigational TKA, numerical simulation, offset, Opioids, Orthosensor2, Osteochondral Defect Repair, outcome, outcomes2, Patient Specific Implants, Patient Specific Instrument, Patient Specific Instrumentation, Patient Specific Surgical Planning, pedicular screws, pelvic tilt2, pelvis2, Performance, periacetabular osteotomy, point cloud registration, pose estimation2, position control, Pre-operative planning, preferred surgical philosophy, preoperative planning4, Primary implants, Principal Component Analysis, Principle Component Analysis, projector, PROMS3, range of motion2, real-time control, registration4, resection accuracy, Robot assisted TKA, Robotic3, robotic knee arthroplasty, robotic surgery, Robotic TKA, Robotic-Assisted, Robotic-assisted surgery3, Robotic-assisted total hip arthroplasty, Robotic-assisted total knee arthroplasty, Robotics, robotics path planning, RRT algorithm, Safe Zone, Scapula, Secure processing, Segmentation5, sensor, Shoulder Arthroplasty, simulation, size, Soft Tissue Release, Soft-tissue balance, Spinal deformity, Spine surgery, statistical atlas generation, Statistical Shape Model4, stiff spine, subsidence, Surgery Planning Assistance, surgical instruments, surgical navigation, surgical simulation, surgical targeting, surgical training2, THA2, THR, three-dimensional, Tibia first gap balancing, Tibial fracture, tibiofemoral kinematics, time2, Time Synchronization, TKA4, total hip arthroplasty5, Total knee arthropalsty, Total knee arthroplasty23, Total knee arthroplasty (TKA), total knee replacement, Total knee revision, Tracking3, Transfer Learning, two-dimensional, Ultrasound2, Unicompartmental Knee Arthroplasty, User Authentication, Validation, variability, virtual planning |
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