Biomedical Engineering Reference
In-Depth Information
Haque, Y., and Ratner, B. D. (1988). Role of
negative ions in the RF plasma
deposition of fluoropolymer films from
perfluoropropane. J.
Polymer Sci.,
Polymer Phys. Ed.
26: 1237-1249.
Hayward, J. A., and Chapman, D. (1984).
Biomembrane surfaces as models for
polymer design: The potential for
haemocompatibility.
Biomaterials
5:
135-142.
Heens, B., Gregoire, C., Pireaux, J. J.,
Cornelio, P. A., and Gardella, J. A., Jr.
(1991). On the stability and homogeneity
of Langmuir-Blodgett films as models of
polymers and biological materials for
surface studies: An XPS study.
Appl. Surf.
Sci.
47: 163-172.
Heid, S., Effenberger, F., Bierbaum, K., and
Grunze, M. (1996). Self-assembled
mono- and multilayers of terminally
functionalized organosilyl compounds on
silicon substrates.
Langmuir
12(8):
2118-2120.
Hickman, J. J., and Stenger, D. A. (1994).
Interactions of cultured neurons with
defined surfaces. in
Enabling
Technologies for Cultured Neural
Networks,
D. A. Stenger, T. N.
McKenna, eds. Academic Press, San
Diego, pp. 51-76.
Hoffman, A. S. (1981). A review of the use
of radiation plus chemical and
biochemical processing treatments to
prepare novel biomaterials.
Radiat.
Phys. Chem.
18: 323-342.
Hoffman, A. S. (1988). Biomedical
applications of plasma gas discharge
processes.
J. Appl. Polymer Sci. Appl.
Polymer Symp.
42: 251-267.
Hoffman, A. S., Schmer, G., Harris, C., and
Kraft, W. G. (1972). Covalent binding
of biomolecules to radiation-grafted
hydrogels on inert polymer surfaces.
Trans. Am. Soc. Artif. Int. Organs
18:
10-17.
Hoffman, A. S., Cohn, D. C., Hanson,
S. R., Harker, L. A., Horbett, T. A.,
Ratner, B. D., and Reynolds, L. O.
(1983). Application of radiation-grafted
hydrogels as blood-contacting
biomaterials.
Radiat. Phys. Chem.
22:
267-283.
Horbett, T. A., and Hoffman, A. S. (1975).
Bovine plasma protein adsorption on
radiation-grafted hydrogels based on
hydroxyethyl methacrylate and
N
-vinyl-
pyrrolidone. in
Applied Chemistry at
Protein Interfaces,
Advances in
Chemistry Series, R. E. Baier, ed.
American Chemical Society,
Washington, D.C., pp. 230-254.
Hu, J., Wang, M., Weier, U. G., Frantz, P.,
Kolbe, W., Ogletree, D. F., and
Salmeron, M. (1996). Imaging of single
extended DNA molecules on flat
(aminopropyl)triethozysilane-mica by
atomic force microscopy.
Langmuir
12(7): 1697-1700.
Inagaki, N., Nakanishi, T., and Katsuura, K.
(1983). Glow discharge polymerizations
of tetrafluoroethylene,
perfluoromethylcyclohexane and
perfluorotoluene investigated by
infrared spectroscopy and ESCA.
Polymer Bull.
9: 502-506.
Jenney, C. R., and Anderson, J. M. (1999).
Alkylsilane-modified surfaces: inhibition
of human macrophage adhesion and
foreign body giant cell formation.
J.
Biomed. Mater. Res.
46: 11-21.
Johnston, E. E., and Ratner, B. D. (1996).
XPS and SSIMS characterization of
surfaces modified by plasma deposited
oligo(glyme) films in
Surface
Modification of Polymeric Biomaterials
,
B. D. Ratner, D. G. Castner, eds.
Plenum Press, New York, pp. 35-44.
Kaplan, S., and Dilks, A. (1981). A solid
state nuclear magnetic resonance
investigation of plasma-polymerized
hydrocarbons.
Thin Solid Films
84:
419-424.
Kasemo, B., and Lausmaa, J. (1985). Metal
selection and surface characteristics. in
Tissue-Integrated Prostheses,
P. I .
Branemark, G. A. Zarb and T.
Albrektsson, eds. Quintessence
Publishing, Chicago, pp. 99-116.
Kitching, K. J., Pan, V., and Ratner, B. D.
(2003). Biomedical applications of
plasma-deposited thin films. in
Plasma
Polymer Films,
H. Biederman, ed.
Imperial College Press, London.
Klages, C. -P., H¨pfner, K., and Kl¨ke, N.
(2000). Surface functionalization at
atmospheric pressure by DBD-based
pulsed plasma polymerization.
Plasmas
Polymer
5: 79-89.
Knobler, C. M. (1990). Recent
developments in the study of monolay-
ers at the air-water interface.
Adv.
Chem. Phys.
77: 397-449.
Knoll, W. (1996). Self-assembled
microstructures at interfaces.
Curr.
Opin. Colloid Interface Sci.
1: 137-143.
Krishnamurthy, V., Kamel, I. L., and Wei, Y.
(1989). Analysis of plasma
polymerization of allylamine by FTIR.
J. Polymer Sci., Polymer Chem. Ed.
27:
1211-1224.
Kwon, O. H., Kikuchi, A., Yamato, M.,
Sakurai, Y., and Okano, T. (2000). Rapid
cell sheet detachment from poly(N-
isopropylacrylamide)-grafted porous cell
culture membranes.
J. Biomed. Mater.
Res.
50: 82-89.
Lee, S. -W., and Laibinis, P. E. (1998).
Protein-resistant coatings for glass and
metal oxide surfaces derived from
oligo(ethylene glycol)-terminated
alkyltrichlorosilane.
Biomaterials
19:
1669-1675.
Lewandowska, K., Balachander, N.,
Sukenik, C. N., and Culp, L. A. (1989).
Modulation of fibronectin adhesive
functions for fibroblasts and neural cells
by chemically derivatized substrata.
J.
Cell. Physiol.
141: 334-345.
Loeb, G. E., Bak, M. J., Salcman, M., and
Schmidt, E. M. (1977a). Parylene as
a chronically stable, reproducible
microelectrode insulator.
IEEE Trans.
Biomed. Eng.
BME-24: 121-128.
Loeb, G. E., Walker, A. E., Uematsu, S.,
and Konigsmark, B. W. (1977b).
Histological reaction to various
conductive and dielectric films
chronically implanted in the subdural
space.
J. Biomed. Mater. Res.
11:
195-210.
Lopez, G. P., and Ratner, B. D. (1991).
Substrate temperature effects of film
chemistry in plasma deposition of
organics. I. Nonpolymerizable
precursors.
Langmuir
7: 766-773.
Lopez, G. P., Ratner, B. D., Rapoza, R. J.,
and Horbett, T. A. (1993). Plasma
deposition of ultrathin films of poly-
(2-hydroxyethyl methacrylate): Surface
analysis and protein adsorption
measurements.
Macromolecules
26:
3247-3253.
Mao, G., Castner, D. G., and Grainger, D.
W. (1997). Polymer immobilization to
alkylchlorosilane organic monolayer
films using sequential derivatization
reactions.
Chem. Mater.
9(8): 1741-
1750.
Maoz, R., Netzer, L., Gun, J., and Sagiv, J.
(1988). Self-assembling monolayers in
the construction of planned
supramolecular structures and as
modifiers of surface properties.
J. Chim.
Phys.
85: 1059-1064.
Massines, F., Gherardi, N., and Sommer, F.
(2000). Silane-based coatings of
polypropylene, deposited by
atmospheric pressure glow discharge
plasmas.
Plasmas Polymers
5: 151-172.
Matsuda, T., and Inoue, K. (1990). Novel
photoreactive surface modification
technology for fabricated devices.
Trans.
Am. Soc. Artif. Internal Organs
36:
M161-M164.
Matsuzawa, M., Umemura, K., Beyer, D.,
Sugioka, K., and Knoll, W. (1997).
Micropatterning of neurons using
organic substrates in culture.
Thin Solid
Films
305: 74-79.