Patient-Specific Implants in Musculoskeletal (Orthopedic) Surgery

Patient-Specific Implants in Musculoskeletal (Orthopedic) Surgery

Most of the treatments in medicine are patient specific, aren’t they? So why should we bother with individualizing implants if we adapt our therapy to patients anyway? Looking at the neighboring field of oncologic treatment, you would not question the fact that individualization of tumor therapy wit...

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Bibliographic Details
Sonstige:
Rudert, Maximilian
Year of Publication:2022
Language:English
Physical Description:1 electronic resource (264 p.)
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520 |a Most of the treatments in medicine are patient specific, aren’t they? So why should we bother with individualizing implants if we adapt our therapy to patients anyway? Looking at the neighboring field of oncologic treatment, you would not question the fact that individualization of tumor therapy with personalized antibodies has led to the thriving of this field in terms of success in patient survival and positive responses to alternatives for conventional treatments. Regarding the latest cutting-edge developments in orthopedic surgery and biotechnology, including new imaging techniques and 3D-printing of bone substitutes as well as implants, we do have an armamentarium available to stimulate the race for innovation in medicine. This Special Issue of Journal of Personalized Medicine will gather all relevant new and developed techniques already in clinical practice. Examples include the developments in revision arthroplasty and tumor (pelvic replacement) surgery to recreate individual defects, individualized implants for primary arthroplasty to establish physiological joint kinematics, and personalized implants in fracture treatment, to name but a few. 
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653 |a custom made implant 
653 |a revision hip 
653 |a Paprosky 
653 |a pelvic discontinuity 
653 |a highly cancellous 
653 |a implant surface 
653 |a tibia 
653 |a titanium alloy 
653 |a 3D printing 
653 |a megaendoprosthesis 
653 |a orthopedic oncology 
653 |a limb salvage 
653 |a patient safety management 
653 |a vascular bypass 
653 |a soft tissue sarcoma 
653 |a vascular reconstruction 
653 |a shoulder arthroplasty 
653 |a X-ray images 
653 |a implant classification 
653 |a deep learning 
653 |a dense residual ensemble-network 
653 |a rotational invariant augmentation 
653 |a Three-Dimensional Printing (3DP) 
653 |a custom implant 
653 |a patient-specific implants (PSI) 
653 |a spinal surgery 
653 |a total knee replacement 
653 |a total knee arthroplasty 
653 |a kinematic alignment 
653 |a slope 
653 |a rotation 
653 |a navigation-assisted surgery 
653 |a tumor orthopedics 
653 |a oncologic orthopedics 
653 |a patient specific 
653 |a tumor surgery 
653 |a bone defects 
653 |a hip detection 
653 |a deep convolutional neural network 
653 |a radiography 
653 |a leg alignment 
653 |a patient-specific instruments 
653 |a custom-made implant 
653 |a rotational correction 
653 |a custom-made 
653 |a rTKA 
653 |a 3D-printed 
653 |a individual 
653 |a limb-salvage 
653 |a cone 
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653 |a knee replacement 
653 |a native knee morphology 
653 |a femoral J-Curve 
653 |a principal component analysis 
653 |a geometric parameter analysis 
653 |a individualized alignment 
653 |a restricted kinematic alignment 
653 |a robotic-assisted TKA 
653 |a MAKO 
653 |a safe zone 
653 |a pelvic tumors 
653 |a 3D printed prostheses 
653 |a computer aided design pelvic reconstruction 
653 |a arthroplasty 
653 |a complications 
653 |a bone tumor 
653 |a pelvis 
653 |a patient-specific 
653 |a individualized 
653 |a 3D-printing 
653 |a unicondylar knee arthroplasty 
653 |a unicompartmental knee replacement 
653 |a unicondylar knee replacement 
653 |a partial knee arthroplasty 
653 |a partial knee replacement 
653 |a UKA 
653 |a UKR 
653 |a augmented reality 
653 |a image-guided surgery 
653 |a intraoperative imaging 
653 |a simulation 
653 |a mixed reality 
653 |a reversed shoulder arthroplasty 
653 |a 3D planning 
653 |a total hip arthroplasty 
653 |a finite element method 
653 |a cemented and uncemented acetabular fixation 
653 |a polyethylene wear patterns 
653 |a cervical-diaphyseal angle 
653 |a center of rotation 
653 |a material head 
653 |a size head 
653 |a liner thickness 
653 |a preoperative planning 
653 |a patient-specific THA 
653 |a target zone 
653 |a leg length discrepancy 
653 |a range of motion 
653 |a edge loading 
653 |a TKA 
653 |a tricompartmental knee osteoarthritis 
653 |a iTotal 
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