Biomedical Engineering Reference
In-Depth Information
HAN DK, JEONG SY, KIM YH, MIN BG (1992). Surface characteristics and blood compat-
ibility of polyurethane grafted by perfl uoralkyl chains.
J Biomater Sci Polym Ed
3
: 229-241.
HAN DK, PARK KD, JEONG SY, KIM YH, KIN UY, MIN BG (1993).
In vivo
biostability and
calcifi cation-resistance of surface-modifi ed PU-PEO-SO
3
.
J Biomed Mater Res
27
:
1063-1073.
HAN DK, PARK KD, KIM YH (1998). Sulfonated poly(ethylene oxide)-grafted polyure-
thane copolymer for biomedical applications.
J Biomed Sci Polym Ed
9
(2):
163-174.
HAYWARD JA, CHAPMAN D (1984). Biomembrane surfaces as models for polymer
design: the potential for haemocompatibility.
Biomaterials
5
: 135-142.
HECHER JF, EDWARDS RO (1981). Effects of roughness on the thrombogenicity of a
plastic.
J Biomed Mater Res
15
: 1-7.
HOLLAND NB, QIU Y, RUEGSEGGER M, MARCHANT RE (1998). Biomimetic engineering of
non-adhesive glycocalyx-like surfaces using oligosaccharide surfactant polymers.
Nature
392
: 799-801.
HORBETT T, CHENG CM, RATNER BD, HOFFMAN AS, HANSON SR (1986). The kinetics of
baboon fi brinogen adsorption to polymers:
in vitro
and
in vivo
studies.
J Biomed
Mater Res
20
: 739-772.
IKADA Y (1984). Blood-compatible polymers.
Adv Polym Sci
57
: 103-139.
IKADA Y (1994). Surface modifi cation of polymers for medical applications.
Bioma-
terials
15
(10): 725-736.
INOUE H, FUJIMOTO K, UYAMA Y, IKADA Y (1997).
Ex vivo
and
in vivo
evaluation of the
blood compatibility of surface-modifi ed polyurethane catheters.
J Biomed Mater
Res
35
: 255-264.
ISHIHARA K, OSHIDA H, ENDO Y, UEDA T, WATANABE A, NAKABAYASHI N (1992). Hemo-
compatibility of human whole blood on polymers with a phospholipid polar group
and its mechanism.
J Biomed Mater Res
26
: 1543-1552.
ISHIHARA K, OSHIDA H, ENDO Y, WATANABE A, UEDA T, NAKABAYASHI N (1993). Effects
of phospholipid adsorption on nonthrombogenicity of polymer with phospholipid
polar groups?
J Biomed Mater Res
27
: 1307-1314.
ISHIHARA K, TANAKA S, FURUKAWA N, KURITA K, NAKABAYASHI N (1996). Improved
blood compatibility of segmented polyurethanes by polymeric additives having
phospholipid polar groups. 1. Molecular design of polymeric additives and their
functions.
J Biomed Mater Res
32
: 391-399.
ISO/TC194 (1991). Committee draft 194 N50, Biological testing of material and
dental materials and devices, Part 4: Tests for interactions of devices with
blood.
ITO Y, SISIDO M, IMANISHI Y (1989). Platelet adhesion onto protein-coated and uncoated
polyetherurethaneurea having tertiary amino groups in the substituents and its
derivatives.
J Biomed Mater Res
23
: 191-206.
KAELBLE DH, MOACANIN J (1977). A surface energy analysis of bioadhesion.
Polymer
18
: 475-482.
KAMBIA K, DINE T, AZAR R, GRESSIER B, LUYCKX M, BRUNET C (2001). Comparative study
of the leachability of di(2-ethylhexyl) phthalate and tri(2-ethylhexyl) trimellitate
from haemodialysis tubing.
Int J Pharm
229
: 139-146.
KASEMO B, LAUSMAO J (1988). Biomaterial and implant surfaces: on the role of clean-
liness, contamination and preparation procedures.
J Biomed Mater Res
22
:
145-158.
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