Biomedical Engineering Reference
In-Depth Information
82.
W.B. Foster, M.E. Nesheim, K.G. Mann, The factor Xa-catalyzed activation of factor V. J.
Biol. Chem.
258
(22), 13970-13977 (1983)
83.
S.K. Friedlander,
On the particle size spectrum of a condensing vapor.
Phys. Fluids
3
(5),
693-696 (1960)
84.
S. Fuchigami, S. Omori, M. Ikeguchi, A. Kidera, Normal mode analysis of protein dynamics
in a non-Eckart frame. J. Chem. Phys.
132
, 104109-1-104109-7 (2010)
85.
R.R. Gabdoulline, R.C. Wade, Brownian dynamics simulation of protein-protein diffusional
encounter. Methods
14
(3), 329-341 (1998)
86.
D. Gailani, A. Zivelin, D. Sinha, P.N. Walsh, Do platelets synthesize factor XI? J. Thromb.
Haemost.
2
(10), 1709-1712 (2004)
87.
R.B. Gayle, C.R. Maliszewski, S.D. Gimpel, M.A. Schoenborn, R.G. Caspary, C. Richards,
K. Brasel, V. Price, J.H. Drosopoulos, N. Islam, T.N. Alyonycheva, M.J. Broekman, A.J.
Marcus, Inhibition of platelet function by recombinant soluble ecto-ADPase/CD39. J. Clin.
Investig.
101
(9), 1851-1859 (1998)
88.
V. Gazzaniga, L. Ottini, The discovery of platelets and their function. Vesalius
VII
(1), 22-26
(2001)
89.
D.T. Gillespie, A general method for numerically simulating the stochastic time evolution of
coupled chemical reactions. J. Comput. Phys.
22
(4), 403-434 (1976)
90.
D.T. Gillespie, Exact stochastic simulation of coupled chemical reactions.
J. Phys. Chem.
81
(25), 2340-2361 (1977)
91.
D.T. Gillespie, Stochastic simulation of chemical kinetics. Annu. Rev. Phys. Chem.
58
, 35-55
(2007)
92.
D.T. Gillespie, Simulation methods in systems biology, in
Formal Methods for Computational
Systems Biology, Volume 5016 of Lecture Notes in Computer Science
, ed. by M. Bernardo,
P. Degano, G. Zavattaro (Springer, Berlin, 2008), pp. 125-167
93.
D.T. Gillespie, Deterministic limit of stochastic chemical kinetics. J. Phys. Chem. B
113
(6),
1640-1644 (2009)
94.
W.E. Glanzmann, Hereditäre hämorrhägische Thrombasthenie. ein Beitrag zur Pathologie der
Blutplättchen. Jahrb. Kinderheilkund.
88
(1-42), 113-141 (1918)
95.
J.A. Glazier, F. Graner, Simulation of the differential adhesion driven rearrangement of
biological cells. Phys. Rev. E
47
(3), 2128-2154 (1993)
96.
G.H. Goldsmith, H. Saito, O.D. Ratnoff, The activation of plasminogen by Hageman factor
(factor XII) and Hageman factor fragments. J. Clin. Investig.
62
(1), 54-60 (1978)
97.
M. Grigioni, C. Daniele, U. Morbiducci, G. D'Avenio, G. Di Benedetto, V. Barbaro, The
power-law mathematical model for blood damage prediction: analytical developments and
physical inconsistencies. Artif. Organs
28
(5), 467-475 (2004)
98.
M. Grigioni, U. Morbiducci, G. D'Avenio, G. Di Benedetto, C. Del Gaudio, A novel
formulation for blood trauma prediction by a modified power-law mathematical model.
Biomech. Model. Mechanobiol.
4
(4), 249-260 (2005)
99.
K.G. Guria, A.R. Gagarina, G.T. Guria, Instabilities in fibrinolytic regulatory system.
theoretical analysis of blow-up phenomena. J. Theor. Biol.
304
, 27-38 (2012)
100.
R.I. Handin, Inherited platelet disorders. Am. Soc. Hematology
2005
(1), 396-402 (2005)
101.
S.E. Harrison, S.M. Smith, J. Bernsdorf, D.R. Hose, P.V. Lawford, Application and validation
of the lattice Boltzmann method for modelling flow-related clotting.
J. Biomech.
40
(13),
3023-3028 (2007)
102.
S. Hayward, B.L. de Groot, Normal modes and essential dynamics, in
Molecular Modeling
of Proteins, Volume 443 of Methods in Molecular Biology
(Humana Press, Clifton, 2008), pp.
89-106
103.
H.C. Hemker, S. Kerdelo, R.M.W. Kremers, Is there value in kinetic modeling of thrombin
generation? No (unless:::). J. Thromb. Haemost.
10
(8), 1470-1477 (2012)
104.
O. Hetland, A.B. Brovold, R. Holme, G. Gaudernack, H. Prydz, Thromboplastin (tissue
factor) in plasma membranes of human monocytes. Biochem. J.
228
(3), 735-743 (1985)
105.
M.F. Hockin, K.C. Jones, S.J. Everse, K.G. Mann, A model for the stoichiometric regulation
of blood coagulation. J. Biol. Chem.
277
(21), 18322-18333 (2002)
Search WWH ::
Custom Search