Biomedical Engineering Reference
In-Depth Information
[130] D.G. Castner and B.D. Ratner, Biomedical surface
science: foundations to frontiers,
Surf Sci
500
(2002),
28-60.
[131] J.C. Vickerman and I.S. Gilmore,
Surface analysis: the
principal techniques
, 2nd ed., Wiley, Chichester, UK
(2009).
[132] J.M. Perry, A.J. Moad, N.J. Begue, R.D. Wampler, and
G.J. Simpson, Electronic and vibrational second-order
nonlinear optical properties of protein secondary
structural motifs,
J Phys Chem B
[141] E. Castillo, J. Koenig, J. Anderson, and N. Jentoft,
Protein adsorption on soft contact lenses. III. Mucin,
Biomaterials
7
(1986), 9-16.
[142] E.J. Castillo, J.L. Koenig, and J.M. Anderson, Charac-
terization of protein adsorption on soft contact lenses
IV. Comparison of
in vivo
spoilage with the
in vitro
adsorption of tear proteins,
Biomaterials
7
(1986),
89-96.
[143] E.A. Vogler, D.A. Martin, D.B. Montgomery, J.C.
Graper, and H.W. Sugg, A graphical method for pre-
dicting protein and surfactant adsorption properties,
Langmuir
9
(1993), 497-507.
[144] E.A. Vogler, J.C. Graper, H.W. Sugg, L.M. Lander, and
W.J. Brittain, Contact activation of the plasma coagu-
lation cascade. 2. Protein adsorption on procoagulant
surfaces,
J Biomed Mater Res
29
(1995), 1017-1028.
[145] H.R. Roberts, Oscar Ratnoff: his contributions to the
golden era of coagulation research,
Brit Haematol
122
(2003), 180-192.
[146] A.H. Schmaier, The elusive physiologic role of factor
XII,
J Clin Invest
118
(2008), 3006-3009.
[147] R.W. Colman, C.F. Scott, A.H. Schmaier, T.T. Wachtfo-
gel, R.A. Pixley, and L.H. Edmunds, Initiation of blood
coagulation at artificial surfaces,
Ann NY Acad Sci
516
(1987), 253-267.
[148] I.M. Sainz, R.A. Pixley, and R.W. Colman, Fifty years of
research on the plasma kallikrein-kinin system: from
protein structure and function to cell biology and in-vivo
pathophysiology,
Thromb Haemost
98
(2007), 77-83.
[149] O.D. Ratnoff, Hemostasis and blood coagulation, in
Physiology
(R.M. Berne and M.N. Levy, eds.), Mosby
Year Book, St. Louis, MO, USA (1993).
[150] G.G.M. Fuhrer, W. Heller, and H.E. Hofmeister, F XII,
Blut
61
(1990), 258-266.
[151] K. Fujikawa and E.W. Davie, Human factor XII
(Hageman factor),
Methods Enzymol
109
(2005),
20009-20026.
[133] J. Wang, M.L. Clarke, X. Chen, M.A. Even, W.C.
Johnson, and Z. Chen, Molecular studies on protein
conformations at polymer/liquid interfaces using
sum frequency generation vibrational spectroscopy,
Surf Sci
587
(2005), 1-11.
[134] X. Chen,
Investigating biointerfaces using sum frequency
generation vibrational spectroscopy,
PhD Dissertation,
University of Michigan (2007).
[135] S.V. Le Clair, K. Nguyen, and Z. Chen, Sum frequency
generation studies on bioadhesion: elucidating the
molecular structure of proteins at interfaces,
J. Adhe-
sion
85
(2009), 484-511.
[136] P. Parhi, A. Golas, and E.A. Vogler, Role of proteins
and water in the initial attachment of mammalian cells
to biomedical surfaces: a review, in
Surface and interfa-
cial aspects of cell adhesion
(A. Carré and K.L. Mittal,
eds.), Koninklijke Brill NV, Leiden, The Netherlands
(2010), 103-138.
[137] Q. Garrett, B. Laycock, and R.W. Garrett, Hydrogel
lens monomer constituents modulate protein sorp-
tion,
Invest Ophthalmol Vis Sci
41
(2000), 1687-1695.
[138] J.L. Bohnert, T.A. Horbett, B.D. Ratner, and F.H. Royce,
Adsorption of proteins from artificial tear solutions to
contact lens materials,
Invest Ophthalmol Vis Sci
29
(1988), 362-373.
[139] E. Castillo, J. Koenig, and J. Anderson, Characteriza-
tion of protein adsorption on soft contact lenses I.
Conformational changes of adsorbed human serum
albumin,
Biomaterials
5
(1984), 319-325.
[140] E. Castillo, J. Koenig, and J. Anderson, Protein adsorp-
tion on hydrogels II. Reversible and irreversible inter-
actions between lysozyme and soft contact lens
surfaces,
Biomaterials
6
(1985), 338-345.
80
(1981),
198-211.
[152] R. Zhuo, R. Miller, K.M. Bussard, C.A. Siedlecki, and
E.A. Vogler, Procoagulant stimulus processing by the
intrinsic pathway of blood plasma coagulation,
Bioma-
terials
26
(2005), 2965-2973.
[153] Z. Guo, K. Bussard, E.A. Vogler, and C.A. Siedlecki,
Mathematical modeling of material-induced blood
plasma coagulation,
Biomaterials
27
(2006), 796-806.
