%0 Journal Article
%T Cell signaling and tissue remodeling in the pulmonary autograft after the Ross procedure: A computational study.
%A Maes L
%A Vervenne T
%A Hendrickx A
%A Estrada AC
%A Van Hoof L
%A Verbrugghe P
%A Rega F
%A Jones EAV
%A Humphrey JD
%A Famaey N
%J J Biomech
%V 171
%N 0
%D 2024 Jun 6
%M 38906711
%F 2.789
%R 10.1016/j.jbiomech.2024.112180
%X In the Ross procedure, a patient's pulmonary valve is transplanted in the aortic position. Despite advantages of this surgery, reoperation is still needed in many cases due to excessive dilatation of the pulmonary autograft. To further understand the failure mechanisms, we propose a multiscale model predicting adaptive processes in the autograft at the cell and tissue scale. The cell-scale model consists of a network model, that includes important signaling pathways and relations between relevant transcription factors and their target genes. The resulting gene activity leads to changes in the mechanical properties of the tissue, modeled as a constrained mixture of collagen, elastin and smooth muscle. The multiscale model is calibrated with findings from experiments in which seven sheep underwent the Ross procedure. The model is then validated against a different set of sheep experiments, for which a qualitative agreement between model and experiment is found. Model outcomes at the cell scale, including the activity of genes and transcription factors, also match experimentally obtained transcriptomics data.