Biomedical Engineering Reference
In-Depth Information
246.
W. Wang, M.R. King, Multiscale modeling of platelet adhesion and thrombus growth. Ann.
Biomed. Eng.
40
(11), 2345-2354 (2012)
247.
H. Wang, C. Junghans, K. Kremer, Comparative atomistic and coarse-grained study of water:
what do we lose by coarse-graining? Eur. Phys. J. E
28
, 221-229 (2009)
248.
D. Wardrop, D. Keeling, The story of the discovery of heparin and warfarin. Br. J. Haematol.
141
(6), 757-763 (2008)
249.
F.F. Weller, Modeling, analysis, and simulation of thrombosis and hemostasis. Ph.D. thesis,
Ruprecht-Karls-Universität Heidelberg, 2008
250.
F.F. Weller, Platelet deposition in non-parallel flow: influence of shear stress and changes in
surface reactivity. J. Math. Biol.
57
(3), 333-359 (2008)
251.
F.F. Weller, A free boundary problem modeling thrombus growth: model development and
numerical simulation using the level set method. J. Math. Biol.
61
(6), 805-818 (2010)
252.
N.K. Wenger, Clinical characteristics of coronary heart disease in women: emphasis on
gender differences. Cardiovasc. Res.
53
(3), 558-567 (2002)
253.
G.M. Willems, T. Lindhout, W.T. Hermens, H.C. Hemker,
Simulation model for thrombin
generation in plasma. Haemostasis
21
(4), 197-207 (1991)
254.
D.M. Wootton, C.P. Markou, S.R. Hanson, D.N. Ku, A mechanistic model of acute platelet
accumulation in thrombogenic stenoses. Ann. Biomed. Eng.
29
(4), 321-329 (2001)
255.
I.S. Wright,
Nomenclature of blood clotting factors.
Can. Med. Assoc. J.
80
(8), 659-661
(1959)
256.
I.S. Wright, Nomenclature of blood clotting factors. Can. Med. Assoc. J.
86
, 373-374 (1962)
257.
J. Wu, C.K. Aidun, A method for direct simulation of flexible fiber suspensions using lattice
Boltzmann equation with external boundary force.
Int. J. Multiphase Flow
36
, 202-209
(2010)
258.
J. Wu, C.K. Aidun, Simulating 3D deformable particle suspensions using lattice Boltzmann
method with discrete external boundary force. Int. J. Numer. Methods Fluids
62
(7), 765-783
(2010)
259.
J. Wu, B.M. Yun, A.M. Fallon, S.R. Hanson, C.K. Aidun, A.P Yoganathan, Numerical
investigation of the effects of channel geometry on Platelet activation and blood damage.
Ann. Biomed. Eng.
39
(2), 897-910 (2011)
260.
C.Q. Xu, Y.J. Zeng, H. Gregersen, Dynamic model of the role of platelets in the blood
coagulation system. Med. Eng. Phys.
24
(9), 587-593 (2002)
261.
C. Xu, X.H. Xu, Y. Zeng, Y.W. Chen, Simulation of a mathematical model of the role of the
TFPI in the extrinsic pathway of coagulation. Comput. Biol. Med.
35
(5), 435-445 (2005)
262.
Z. Xu, N. Chen, M.M. Kamocka, E.D. Rosen, M. Alber,
A multiscale model of thrombus
development. J. R. Soc. Interface
5
, 705-722 (2008)
263.
Z. Xu, N. Chen, S.C. Shadden, J.E. Marsden, M.M. Kamocka, E.D. Rosen, M. Alber, Study of
blood flow impact on growth of thrombi using a multiscale model. Soft Matter
5
(4), 769-779
(2009)
264.
Z.Xu,J.Lioi,M.Alber,J.Mu,X.Liu,D.Z.Chen,M.M.Kamocka,E.D.Rosen, Combined
experimental and simulation study of blood clot formation, in
TIC-STH'09: 2009 IEEE
Toronto International Conference - Science and Technology for Humanity
, pp. 357-362
(2009)
265.
Z. Xu, J. Lioi, J. Mu, M.M. Kamocka, X. Liu, D.Z. Chen, E.D. Rosen, M. Alber, A multiscale
model of venous thrombus formation with surface-mediated control of blood coagulation
cascade. Biophys. J.
98
, 1723-1732 (2010)
266.
Z. Xu, M. Kamocka, M. Alber, E.D. Rosen, Computational approaches to studying thrombus
development. Arterioscler. Thromb. Vasc. Biol.
31
, 500-505 (2011)
267.
Z. Xu, O. Kim, M. Kamocka, E.D. Rosen, M. Alber, Multiscale models of thrombogenesis.
Wiley Interdiscip. Rev. Syst. Biol. Med.
4
(3), 237-246 (2012)
268.
D. Xu, E. Kaliviotis, A. Munjiza, E. Avital, C. Ji, J. Williams, Large scale simulation of red
blood cell aggregation in shear flows. J. Biomech.
46
, 1810-1817 (2013)
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