MATERIALS AND METHODS. We designed a tridimensional model in a free and open-source simulation environment. The simulation routine employed an array of specialized software and methodologies to ensure both the reliability and the reproducibility of our results. Each step was meticulously conducted to ensure that the findings would not only hold scientific credibility but also offer clinically relevant insights. Different scenarios were simulated, and the range of motion of the prosthetic hip was assessed. Movements at particular risk of dislocation were assessed, and a study was conducted considering the range of motion of the femur allowed until contact (impingement) between geometries (discriminating bone-to-bone contact, implant-on-implant contact, and implant-on-bone contact). Furthermore, different pelvic version angles were evaluated to assess potential differences.
Appears in 1 contract
Sources: Doctoral Thesis
MATERIALS AND METHODS. We designed a tridimensional model in a free and open-source simulation environment. The simulation routine employed an array of specialized software and methodologies to ensure both the reliability and the reproducibility of our results. Each step was meticulously conducted conducted, abiding by recognized standards, to ensure that the findings would not only hold scientific credibility but also offer clinically relevant insights. Different scenarios were simulated, and the range of motion of the prosthetic hip was assessed. Movements In particular, we proceeded with the analysis of movements at particular risk of dislocation were assesseddislocation, and a study was conducted considering the range of motion of the femur allowed until contact (impingement) between geometries (discriminating bone-toon-bone contact, implant-on-on- implant contact, and implant-on-bone contact). Furthermore, different pelvic version angles were evaluated to assess potential differences.
Appears in 1 contract
Sources: Doctoral Thesis