2024
A review of the design, manufacture, and outcomes of custom total joint replacement implants available in the United States
Kaszuba S, Hurley M, Beitler B, Abraham P, Tommasini S, Schwarzkopf R, Wiznia D. A review of the design, manufacture, and outcomes of custom total joint replacement implants available in the United States. Journal Of Clinical Orthopaedics And Trauma 2024, 49: 102354. PMID: 38361508, PMCID: PMC10865390, DOI: 10.1016/j.jcot.2024.102354.Peer-Reviewed Original ResearchTotal joint replacement implantsTotal joint replacementJoint replacement implantsManufacturing processDesign considerationsReplacement implantsPrimary total joint replacementImprove functional outcomesBone defectsJoint replacementCustomized implantsTreated patientsRevision surgeryTotal hipManufacturingRevision casesKnee arthroplasty implantsArthroplasty implantsImplantationDesignPatientsPrimary deformationSurgeons
2023
The Use of Computer Navigation and Robotic Technology in Complex Total Hip Arthroplasty.
Ross K, Wiznia D, Long W, Schwarzkopf R. The Use of Computer Navigation and Robotic Technology in Complex Total Hip Arthroplasty. Bulletin Of The NYU Hospital For Joint Disease 2023, 81: 232-239. PMID: 37979140.Peer-Reviewed Original ResearchConceptsTotal hip arthroplastyCAS navigationRobotic technologySurgical navigationNavigationHip arthroplastySignificant leg length discrepancyComplex total hip arthroplastyRobot-assisted total hip arthroplastyRobotic-assisted total hip arthroplastyConventional total hip arthroplastyLeg length discrepancyTechnologyCases of deformityComputer navigationComponent accuracyComplex casesComputerOperative timePreoperative deformityLength discrepancyPossible complicationsAccurate component positioningTha dataRevision cases
2022
Computer-Assisted Navigation for Complex Revision of Unstable Total Hip Replacement in a Patient With Post-traumatic Arthritis
Rankin KA, Petit L, Nasreddine A, Minotti P, Leslie M, Wiznia DH. Computer-Assisted Navigation for Complex Revision of Unstable Total Hip Replacement in a Patient With Post-traumatic Arthritis. Arthroplasty Today 2022, 15: 153-158. PMID: 35586609, PMCID: PMC9108506, DOI: 10.1016/j.artd.2022.03.015.Peer-Reviewed Original ResearchPost-traumatic arthritisComputer-assisted navigationImageless computer-assisted navigationUnstable total hip replacementRevision total hip arthroplastyAdult male patientsRecurrent hip instabilityTotal hip arthroplastyComplex revision casesTotal hip replacementMale patientsAcetabular fracturesHip arthroplastyJoint instabilityHip instabilityRevision casesComponent malpositioningHip replacementCup positioningArthritisPatientsComplex revisions
2021
The Use of Computer Navigation and Robotic Technology in Complex Total Knee Arthroplasty
Ross KA, Wiznia DH, Long WJ, Schwarzkopf R. The Use of Computer Navigation and Robotic Technology in Complex Total Knee Arthroplasty. JBJS Reviews 2021, 9: e20.00200. PMID: 33999911, DOI: 10.2106/jbjs.rvw.20.00200.Peer-Reviewed Original ResearchConceptsDeformity correctionRevision casesPotential long-term cost savingsComplex total knee arthroplastyLong-term functional outcomeCAS navigationTotal knee arthroplasty systemTotal knee arthroplastyRapid hospital dischargeKnee arthroplasty systemComputer-assisted surgical navigationHospital dischargeBlood lossRobotic systemOperative timePreoperative deformityFunctional outcomeTibial deformityFemoral bowingKnee arthroplastyRevision rateTherapy requirementsMechanical axisPrimary casesRobotic technology