As a medical student, I conduct research on knee arthroplasty with a particular focus on prosthesis migration and micromotion. In my work, I am primarily responsible for the planning, execution, and analysis of clinical studies using radiostereometric analysis (RSA) to evaluate implant stability over time. I have experience with statistical modelling, mixed-effects models, and analysis of RSA data. My current roles include data analysis, scientific writing.

I am conducting research on knee arthroplasty with particular focus on migration and micromotion of the prosthesis. Using radio stereometric analysis, my goal is to improve the understanding of early prosthesis stability and identify factors associated with increased migration. My research contributes to orthopedic surgeons and implant developers being able to optimize implant design and surgical techniques, ultimately improving long-term outcomes and reducing the risk of prosthesis loosening.

My primary area of responsibility is research within knee arthroplasty, including prosthesis migration, micromotion, and implant stability assessed by radiostereometric analysis (RSA). I also work with statistical analysis of clinical data, preparation of scientific publications, and collaboration with clinical and industry partners.