Login / Signup

Coarse-grained simulations of von Willebrand factor adsorption to collagen with consequent platelet recruitment.

Noel G TsyuAleksey V Belyaev
Published in: International journal for numerical methods in biomedical engineering (2023)
A multimeric glycoprotein of blood plasma-Von Willebrand factor (VWF)-mediates platelet adhesion to the fibrillar collagen of the subendothelial matrix if the blood vessel walls are damaged. The adsorption of VWF to collagen is thus essential for the initial stages of platelet hemostasis and thrombosis, as it plays a role of a molecular bridge between the injury and platelet adhesion receptors. Biomechanical complexity and sensitivity to the hydrodynamics are inherent in this system, therefore, modern computational methods supplement experimental studies of biophysical and molecular mechanisms that underlie platelet adhesion and aggregation in the blood flow. In the present paper, we propose a simulation framework for the VWF-mediated platelet adhesion to a plane wall with immobilized binding sites for VWF under the action of shear flow. VWF multimers and platelets are represented in the model by particles connected by elastic bonds and immersed in a viscous continuum fluid. This work complements the scientific field by taking into account the shape of a flattened platelet, but keeping a compromise between the detail of the description and the computational complexity of the model.
Keyphrases
  • blood flow
  • molecular dynamics
  • biofilm formation
  • pulmonary embolism
  • escherichia coli
  • staphylococcus aureus
  • mass spectrometry
  • candida albicans