Add to ORKG© 2017 The Author(s) Published by the Royal Society. All rights reserved. Thromboembolism, one of the leading causes of morbidity and mortality worldwide, is characterized by formation of obstructive intravascular clots (thrombi) and their mechanical breakage (embolization). A novel two-dimensional multi-phase computational model is introduced that describes active interactions between the main components of the clot, including platelets and fibrin, to study the impact of various physiologically relevant blood shear flow conditions on deformation and embolization of a partially obstructive clot with variable permeability. Simulations provide new insights into mechanisms underlying clot stability and embolization that cannot be studied exper...
Hemostasis is a self-defensive mechanism that prevents injured blood vessels from excessive bleeding...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Mechanical interactions between flowing and coagulated blood (thrombus) are crucial in dictating the...
Thromboembolism, one of the leading causes of morbidity and mortality worldwide, is characterized by...
Blood coagulation is one of the important defense mechanisms preventing the loss of blood following ...
Thrombosis is a life-threatening clinical condition characterized by the obstruction of blood flow i...
Damage to arterial vessel walls leads to the formation of platelet aggregate, which acts as a physic...
Abstract Despite recent advances in the development of computational methods of modeling thrombosis,...
\u3cp\u3eThe mechanical properties determine to a large extent the functioning of a blood clot. Thes...
A mathematical model of the formation of a clot (thrombosis) has been constructed in which the fibri...
Blood clot formation is important to prevent blood loss in case of a vascular injury but disastrous ...
During clotting under flow, platelets bind and activate on collagen and release autocrinic factors s...
AbstractA microscale mathematical model of blood clot dissolution based on coarse-grained molecular ...
During clotting under flow, platelets bind and activate on collagen and release autocrinic factors s...
© 2020 The Authors. Fibrin is the three-dimensional mechanical scaffold of protective blood clots th...
Hemostasis is a self-defensive mechanism that prevents injured blood vessels from excessive bleeding...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Mechanical interactions between flowing and coagulated blood (thrombus) are crucial in dictating the...
Thromboembolism, one of the leading causes of morbidity and mortality worldwide, is characterized by...
Blood coagulation is one of the important defense mechanisms preventing the loss of blood following ...
Thrombosis is a life-threatening clinical condition characterized by the obstruction of blood flow i...
Damage to arterial vessel walls leads to the formation of platelet aggregate, which acts as a physic...
Abstract Despite recent advances in the development of computational methods of modeling thrombosis,...
\u3cp\u3eThe mechanical properties determine to a large extent the functioning of a blood clot. Thes...
A mathematical model of the formation of a clot (thrombosis) has been constructed in which the fibri...
Blood clot formation is important to prevent blood loss in case of a vascular injury but disastrous ...
During clotting under flow, platelets bind and activate on collagen and release autocrinic factors s...
AbstractA microscale mathematical model of blood clot dissolution based on coarse-grained molecular ...
During clotting under flow, platelets bind and activate on collagen and release autocrinic factors s...
© 2020 The Authors. Fibrin is the three-dimensional mechanical scaffold of protective blood clots th...
Hemostasis is a self-defensive mechanism that prevents injured blood vessels from excessive bleeding...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
Mechanical interactions between flowing and coagulated blood (thrombus) are crucial in dictating the...