While a relationship between knee joint laxity and osteoarthritis is often assumed, the exact mechanism is not yet fully understood. It is not clear how stabilization by either the cross ligaments or muscle forces affect the local cartilage stress and strain. We develop a comprehensive analysis tool for individual patients. On one hand, we couple a dynamic multibody model to a quasistatic contact solver for the cartilage and validate it against in vivo measurement data from patient groups at Charite. On the other hand, we develop visualization and statistical analysis tools that allow to understand the impact of anatomical variation and cross ligament loss on the mechanical loading of cartilage and correlate this to osteoarthritis progression.

Publications

2015
OVERLOAD of joints and its role in osteoarthritis - Towards understanding and preventing progression of primary osteoarthritis Zeitschrift für Rheumatologie, 76(Suppl. 1), pp. 1-4, 2015 Bettina M. Willie, Thomas Pap, Carsten Perka, Carsten Oliver Schmidt, Felix Eckstein, Adamantios Arampatzis, Hans-Christian Hege, Henning Madry, Andrea Vortkamp, Georg Duda BibTeX
DOI
Individual Cartilage Loading in the Knee Joint
OVERLOAD – Rolle der Gelenküberlastung in der primären Arthrose – Die Krankheitsprogression verstehen und vermeiden Zeitschrift für Rheumatologie, Vol.74, pp. 618-621, 2015 Bettina M. Willie, Thomas Pap, Carsten Perka, Carsten Oliver Schmidt, Felix Eckstein, Adamantios Arampatzis, Hans-Christian Hege, Henning Madry, Andrea Vortkamp, Georg Duda BibTeX
DOI
Individual Cartilage Loading in the Knee Joint
Zielorientierte Fehlerschätzer für die Topologieoptimierung Master's thesis, Technische Universität Berlin, Martin Weiser (Advisor), 2015 Jakob Schneck PDF
BibTeX
URN
Individual Cartilage Loading in the Knee Joint