Robotic Arm–Assisted Total Knee Arthroplasty Results in Smaller Femoral Components and Larger Tibial Baseplates Than the Manual Technique
Bernstein J, Hepinstall M, Donnelley C, Rajahraman V, Waren D, Schwarzkopf R, Wiznia D. Robotic Arm–Assisted Total Knee Arthroplasty Results in Smaller Femoral Components and Larger Tibial Baseplates Than the Manual Technique. Arthroplasty Today 2024, 29: 101414. PMCID: PMC11551327, DOI: 10.1016/j.artd.2024.101414.Peer-Reviewed Original ResearchTotal knee arthroplastyMultivariate analysisImplant sizeTotal knee arthroplasty resultsThree-dimensional planningAcademic medical centerImplant size selectionManual cohortEffect modificationInstrumented total knee arthroplastyClinical outcomesImplant selectionMedical CenterCohortProsthetic designRobotic systemArthroplasty resultsKnee arthroplastyFemoral componentManual techniquesTibial componentPoster 291: Entry Point-Transition Point Angle as a Novel 3-Dimensional Metric of Patellar Instability
Park N, Sieberer J, Rancu A, Manafzadeh A, McDonald C, Yu K, Wiznia D, Fulkerson J. Poster 291: Entry Point-Transition Point Angle as a Novel 3-Dimensional Metric of Patellar Instability. Orthopaedic Journal Of Sports Medicine 2024, 12: 2325967124s00258. PMCID: PMC11328264, DOI: 10.1177/2325967124s00258.Peer-Reviewed Original ResearchPatellar instabilityComputed tomographyTrochlear dysplasiaGeneral populationRecurrent dislocationDegree of dysplasiaRecurrent patellar dislocationMann-Whitney U testInstitutional review board exemptionDistal femurGeneral population cohortPatellofemoral painPatellar dislocationMann-WhitneyU testCT imagesDysplasiaAnteroposterior viewPatientsTrochlear morphologyInterclass correlationPopulation cohortNew Mexico Decedent Image DatabaseCohortFemur