FLOWLab is super excited to announce the publication of our latest article titled "Microstructure Aware Modeling Of Biochemical Transport In Arterial Blood Clots" in the Journal of Biomechanics. This article illustrates our ongoing work on microstructure aware modeling of thrombotic phenomena in arterial hemodynamics. We extend our custom fictitious domain approach for mesoscale modeling of heterogeneous blood clots. Specifically, here we outline the presence and formation of space-time varying coherent structures around an arterial clot that regulates advective transport. Furthermore, the heterogeneous microstructure representation enables us to model diffusive intra-thrombus transport. Using some cycle-averaged long time simulations we identify trends in intra-thrombus transport, based on an extension of the fictitious domain approach to advection-diffusion equations. Please find the journal version of the article at: https://www.sciencedirect.com/science/article/pii/S0021929021004607. You can also download an author's preprint version from bioRxiv at the following link: https://www.biorxiv.org/content/10.1101/2021.01.25.428179v2. We welcome comments and discussions from the community! Thank you also to all the reviewers and editors who helped with this publication during these challenging times.
8/4/2022 01:21:52 am
Hi sir, I want to perform collaborative work based on Material Modelling and Computational Analysis related to arterial defects. Our paper has accepted for IMECE2022 entitled as MODELING OF FAILURE RESISTANT CORONARY ARTERY BYPASS GRAFTING USING COMPUTATIONAL FLUID DYNAMICS.
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