Numerical model of the aortic valve prosthetic frame

Aim: To perform a quantitative analysis of the effectiveness of three concepts of heart valve prosthesis support frames from the perspective of their safety under the most critical loads, conducted through numerical modeling.Materials and Methods. The study utilized three computer-generated concepts of stent-like support frames, created based on the analysis of similar balloon-expandable prostheses. The modeling was conducted using Abaqus/CAE software and included the analysis of two key loads characteristic for this element: compression and implantation phases. A linear description of cobalt-chromium was used as the material model. The feasibility of the concepts was quantitatively assessed using von Mises stress and its qualitative distribution on the surface of the models as stress contours.Results. The analysis revealed that two of the three proposed models experienced stresses exceeding the strength limit (933 MPa) - 999.6 and 954.0 MPa during the compression phase and reaching 1022.4 and 1044.7 MPa, respectively, during the implantation phase. Concept 3 had significantly lower stresses during loading; however, in the working state, the indicators approached the threshold, reaching 924.2 MPa.Conclusion. Numerical modeling identified the inefficacy of concepts 1 and 2 and directions for optimizing concept 3 - reducing amplitudes to form a “strength reserve” for stress. The analysis emphasized the importance of numerical modeling in the early assessment and optimization of medical devices.