Johannes M Sieberer, MSc, MS
About
Research
Overview
Medical Research Interests
Elbow Joint; Patellofemoral Joint
Publications
Featured Publications
Analyzing Alignment Error in Tibial Tuberosity–Trochlear Groove Distance in Clinical Scans Using 2D and 3D Methods
Sieberer J, Park N, Rancu A, Desroches S, McDonald C, Manafzadeh A, Tommasini S, Wiznia D, Fulkerson J. Analyzing Alignment Error in Tibial Tuberosity–Trochlear Groove Distance in Clinical Scans Using 2D and 3D Methods. The American Journal Of Sports Medicine 2024, 52: 2996-3003. PMID: 39320426, DOI: 10.1177/03635465241279852.Peer-Reviewed Original ResearchTibial tuberosity-trochlear groove distanceSurgical decision-makingPatellofemoral instabilityIntraclass correlation coefficientGroove distanceTreatment of patellofemoral instabilityComputed tomography scanTT-TG distanceScans of patientsPatient's legsTT-TG measurementsTibial tubercle transferKnees of patientsInterrater reliabilityGt;5 mmTomography scanSurgical planningTubercle transferScanner gantryPatientsClinical scansClinical literatureTopographic landmarksKneeDecision-makingVisualization of Trochlear Dysplasia using Three-Dimensional Curvature Analysis in Patients with Patellar Instability Facilitates Understanding and Improves the Reliability of the Entry-Point to Trochlea Groove Angle
Sieberer JM, Park N, Manafzadeh AR, et al. Visualization of Trochlear Dysplasia using Three-Dimensional Curvature Analysis in Patients with Patellar Instability Facilitates Understanding and Improves the Reliability of the Entry-Point to Trochlea Groove Angle. Arthroscopy, Sports Medicine, and Rehabilitation.Peer-Reviewed Original Research In Press
2024
Semiautomated Three-Dimensional Landmark Placement on Knee Models Is a Reliable Method to Describe Bone Shape and Alignment
Park N, Sieberer J, Manafzadeh A, Hackbarth RM, Desroches S, Ghankot R, Lynch J, Segal NA, Stefanik J, Felson D, Fulkerson JP, Semiautomated Three-Dimensional Landmark Placement on Knee Models Is a Reliable Method to Describe Bone Shape and Alignment, Arthroscopy, Sports Medicine, and Rehabilitation (2024), doi: https://doi.org/10.1016/j.asmr.2024.101036.Peer-Reviewed Original ResearchThe Morphologic Patella Entry Point Into the Proximal Trochlea Is More Lateral in Recurrent Dislocators Than Controls as Measured by Entry Point–Trochlear Groove Angle
Beitler B, Sieberer J, Islam W, McDonald C, Yu K, Tommasini S, Fulkerson J. The Morphologic Patella Entry Point Into the Proximal Trochlea Is More Lateral in Recurrent Dislocators Than Controls as Measured by Entry Point–Trochlear Groove Angle. Arthroscopy The Journal Of Arthroscopic And Related Surgery 2024, 41: 703-712. PMID: 38697328, DOI: 10.1016/j.arthro.2024.04.013.Peer-Reviewed Original ResearchRecurrent patella instabilityPatella instabilityLevel III-case-control studyRecurrent dislocationRecurrent dislocation groupMann-Whitney U testCase-control studyRecurrent patella dislocationIntraclass correlation coefficientDistal femurCT scanOptimal treatmentProximal trochleaPatellar dislocationU testControlled studiesInclusion criteriaPatella dislocationSenior authorRight kneeKnee pathologyControl groupSimpleware ScanIPBayesian mixed effects modelsAP imagesThree-Dimensional Imaging of the Patellofemoral Joint Improves Understanding of Trochlear Anatomy and Pathology and Planning of Realignment
Schneble C, Yu K, Venkadesan M, Cooperman D, Beitler B, Sieberer J, Fulkerson J. Three-Dimensional Imaging of the Patellofemoral Joint Improves Understanding of Trochlear Anatomy and Pathology and Planning of Realignment. Arthroscopy The Journal Of Arthroscopic And Related Surgery 2024, 41: 130-140. PMID: 38697330, DOI: 10.1016/j.arthro.2024.04.010.Peer-Reviewed Original Research
2023
Navigation in immersive virtual reality: a comparison of 1:1 walking to 1:1 wheeling
Weser, V.U., Sieberer, J., Berry, J. et al. Navigation in immersive virtual reality: a comparison of 1:1 walking to 1:1 wheeling. Virtual Reality 28, 4 (2024). https://doi.org/10.1007/s10055-023-00901-0Peer-Reviewed Original Research
2022
ABB Robotic Laser Doppler Anemometry Measurements With RobotStudio® With An Open Wind Channel And An Ellipsoid
Berger, M., Hausberger, T., Sieberer, J., Senfter, T., Kofler, T., Mayerl, C., … & Pillei, M. (2022). Abb robotic laser doppler anemometry measurements with robotstudio® with an open wind channel and an ellipsoid. Proceedings of the International Symposium on the Application of Laser and Imaging Techniques to Fluid Mechanics, 20, 1-8. https://doi.org/10.55037/lxlaser.20th.41Peer-Reviewed Original Research
Get In Touch
Contacts
Locations
Biomechanics Lab
Lab
Farnam Memorial Building
310 Cedar Street
New Haven, CT 06510
Yale Biomechanics and Control Lab
Lab
17 Hillhouse Avenue, Fl 2
New Haven, CT 06511