Evaluation of joint kinematics, ligament instability and arthroplasty tribology, wear and fixation using static and dynamic radiostereometry. Quantification of periprosthetic bone mineral density changes and evaluation of bone microarchitecture using DXA, µCT and histomorphometry. Statistical prediction models (AI) for patient individual arthroplasty survival and satisfaction after surgery. Pharmacokinetics of antibiotics and chemotherapy assessed by microdialysis.
Experimental basic research in implant fixation, ceramic coatings, bone grafting, growth factors, cytokines, wear debris, nano science, tissue engineering, therapeutic peptides, gene technology, stem cells, clinical studies of total joints, epidemiology of osteoarthrosis, clinical databases, fast-track programmes and health economic research.
Function, wear and implant fixation of hip joints measured with radiostereometry.
Objective measurement of activity (by accelerometry) and clinical function (by inertial measurement units).
Static and Dynamic RSA, Software development and programming, and Clinical and cadaver studies. Currently working on pre- and post-operative knee joint kinematic assessment of knee osteoarthritis patients with an orientation of diagnostic and treatment improvement. Has been a part of the group since 2015.
Development and execution of clinical projects.
Dynamic RSA and joint kinematics in wrist and forearm.
+45 31 33 02 88
Education: MSc, PhD
Data analysis, Registry based research and Prediction modelling in orthopaedics. Sebastian defended his PhD on prognostic factors for self-reported function and satisfaction after hand surgery in 2020, and has been a part of the AutoRSA Research Group since then.
Data analysis of RSA recordings and development and execution of clinical projects. Josephine is currently doing a project about joint kinematics in the shoulder evaluated by dynamic RSA and IMUs.
Data analysis, Registry based research and Prediction modelling in orthopaedics by evaluation of implant fixation and bone quality (biomarkers and dual-energy x-ray absorptiometry). Research year in 2016.
Artificial intelligence and software development. Currently working on synthetic CT generation from MR images for use in the AutoRSA.
Static and Dynamic RSA, software development, clinical and cadaver studies. Currently working on a project investigating the migratory pattern of total knee arthroplasties during a step-up exercise. Joined the group in 2018.
Data analysis of RSA recordings and development and execution of clinical projects. Tobias is doing a clinical project on knee arthroplasty, including both clinical evaluation and dynamic RSA recordings.
Data analysis of RSA recordings and development and execution of clinical projects.
Research year 2022-2023 about elbow joint kinematics, evaluated by dynamic RSA.