05915nam 2201597z- 450 991057688590332120231214133040.0(CKB)5720000000008315(oapen)https://directory.doabooks.org/handle/20.500.12854/84502(EXLCZ)99572000000000831520202206d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPatient-Specific Implants in Musculoskeletal (Orthopedic) SurgeryBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (264 p.)3-0365-4248-5 3-0365-4247-7 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.Patient-Specific Implants in Musculoskeletal Medicinebicsscpatient specific implantcustom made implantrevision hipPaproskypelvic discontinuityhighly cancellousimplant surfacetibiatitanium alloy3D printingmegaendoprosthesisorthopedic oncologylimb salvagepatient safety managementvascular bypasssoft tissue sarcomavascular reconstructionshoulder arthroplastyX-ray imagesimplant classificationdeep learningdense residual ensemble-networkrotational invariant augmentationThree-Dimensional Printing (3DP)custom implantpatient-specific implants (PSI)spinal surgerytotal knee replacementtotal knee arthroplastykinematic alignmentsloperotationnavigation-assisted surgerytumor orthopedicsoncologic orthopedicspatient specifictumor surgerybone defectship detectiondeep convolutional neural networkradiographyleg alignmentpatient-specific instrumentscustom-made implantrotational correctioncustom-maderTKA3D-printedindividuallimb-salvageconecustomisedpersonalisedknee replacementnative knee morphologyfemoral J-Curveprincipal component analysisgeometric parameter analysisindividualized alignmentrestricted kinematic alignmentrobotic-assisted TKAMAKOsafe zonepelvic tumors3D printed prosthesescomputer aided design pelvic reconstructionarthroplastycomplicationsbone tumorpelvispatient-specificindividualized3D-printingunicondylar knee arthroplastyunicompartmental knee replacementunicondylar knee replacementpartial knee arthroplastypartial knee replacementUKAUKRaugmented realityimage-guided surgeryintraoperative imagingsimulationmixed realityreversed shoulder arthroplasty3D planningtotal hip arthroplastyfinite element methodcemented and uncemented acetabular fixationpolyethylene wear patternscervical-diaphyseal anglecenter of rotationmaterial headsize headliner thicknesspreoperative planningpatient-specific THAtarget zoneleg length discrepancyrange of motionedge loadingTKAtricompartmental knee osteoarthritisiTotalMedicineRudert Maximilianedt1326495Rudert MaximilianothBOOK9910576885903321Patient-Specific Implants in Musculoskeletal (Orthopedic) Surgery3037566UNINA