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Modeling thrombus growth in pathological flows allows evaluation of risk under patient-specific pharmacological, hematological, and hemodynamical conditions. We have developed a 3D multiscale framework for the prediction of thrombus growth under flow on a spatially resolved surface presenting collagen and tissue factor (TF). The multiscale framework is composed of four coupled modules: a Neural Network (NN) that accounts for platelet signaling, a Lattice Kinetic Monte Carlo (LKMC) simulation for tracking platelet positions, a Finite Volume Method (FVM) simulator for solving convection-diffusion-reaction equations describing agonist release and transport, and a Lattice Boltzmann (LB) flow solver for computing the blood flow field over the growing thrombus. A reduced model of the coagulation cascade was embedded into the framework to account for TF-driven thrombin production. The 3D model was first tested against in vitro microfluidics experiments of whole blood perfusion with various antiplatelet agents targeting COX-1, P2Y1, or the IP receptor. The model was able to accurately capture the evolution and morphology of the growing thrombus. Certain problems of 2D models for thrombus growth (artifactual dendritic growth) were naturally avoided with realistic trajectories of platelets in 3D flow. The generalizability of the 3D multiscale solver enabled simulations of important clinical situations, such as cylindrical blood vessels and acute flow narrowing (stenosis). Enhanced platelet-platelet bonding at pathologically high shear rates (e.g., von Willebrand factor unfolding) was required for accurately describing thrombus growth in stenotic flows. Overall, the approach allows consideration of patient-specific platelet signaling and vascular geometry for the prediction of thrombotic episodes. 相似文献
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Christopher L. Porter Scott L. Diamond Talid Sinno John C. Crocker 《Biophysical journal》2021,120(11):2102-2111
Many biologically important cell binding processes, such as the rolling of leukocytes in the vasculature, are multivalent, being mediated by large numbers of weak binding ligands. Quantitative agreement between experiments and models of rolling has been elusive and often limited by the poor understanding of the binding and unbinding kinetics of the ligands involved. Here, we present a cell-free experimental model for such rolling, consisting of polymer microspheres whose adhesion to a glass surface is mediated by ligands with well-understood force-dependent binding free energy—short complementary DNA strands. We observe robust rolling activity for certain values of the shear rate and the grafted DNA strands’ binding free energy and force sensitivity. The simulation framework developed to model leukocyte rolling, adhesive dynamics, quantitatively captures the mean rolling velocity and lateral diffusivity of the experimental particles using known values of the experimental parameters. Moreover, our model captures the velocity variations seen within the trajectories of single particles. Particle-to-particle variations can be attributed to small, plausible differences in particle characteristics. Overall, our findings confirm that state-of-the-art adhesive dynamics simulations are able to capture the complex physics of particle rolling, boding well for their extension to modeling more complex systems of rolling cells. 相似文献
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Joyce Ann Sinno 《Biological trace element research》1989,20(1-2):153-159
Cytosolic activity of glutathione peroxidase (GSH-Px), selenium-independent GSH-Px, and catalase, thiobarbituric acid reactive substances (TBARS), and glutathione and selenium (Se) concentration were measured in ocular tissues of rats maintained on a low (0.05 ppm) or adequate (0.10 ppm) Se diet and treated with 0 or 25 ppm cadmium (Cd) in their drinking water for fourteen weeks. Feeding rats a low Se diet resulted in a significant decrease in GSH-Px activity when compared to rats maintained on adequate dietary Se, irrespective of Cd treatment. Se-independent GSH-Px activity of rats maintained at 0.05 ppm Se decreased 27% when compared to Se-adequate controls, whereas activity increased 38% in the Cd-treated low-Se group. When comparisons were made between ocular TBARS in rats maintained at either level of dietary Se and treated with 0 or 25 ppm Cd, a trend toward decreased amounts of TBARS in Cd-treated groups was observed. A significant decrease in ocular Se concentration occurred in rats fed 0.05 ppm Se when compared to the Se-adequate group. Administering Cd to the low-Se group increased ocular Se levels 100%. A negative correlation between ocular Se concentration and TBARS was observed, suggesting a possible alternate role for Se as an antioxidant in the eye. 相似文献
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Children's evaluations of two parental roles, working outside the home, and staying home to take care of children, were assessed in second (M = 7.13 years, SD = .39) and fifth grade (M = 10.42, SD = .57) students (N = 121). Children viewed it as acceptable for both mothers and fathers to work full-time, and used personal choice and social conventional reasons as justifications. In contrast, children found it less acceptable for fathers to stay at home than for mothers to stay at home, and they used gender stereotypes about domestic roles as justifications. With age, children were more flexible in their reasoning and used fewer stereotypes in their evaluations; children from traditional family structures used more stereotypic expectations than did children from non-traditional ones. Overall, children's interpretations of competence in a caretaker role was highly contingent on the gender of the parent. 相似文献
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