Biomedical Engineering Reference
In-Depth Information
[122] A.K. Refai, M. Textor, D.M. Brunette,
J.D. Waterfield, Effect of titanium surface
topography on macrophage activation and
secretion of proinflammatory cytokines and
chemokines, J. Biomed. Mater. Res. A 70 (2)
(2004) 194
e
205.
[123] P.M. Kou, Z. Schwartz, B.D. Boyan,
J.E. Babensee, Dendritic cell responses to
surface properties of clinical titanium surfaces,
Acta Biomater. 7 (3) (2011) 1354
e
1363.
[124] N. Beyth, Y. Houri-Haddad, L. Baraness-
Hadar, I. Yudovin-Farber, A.J. Domb,
E.I. Weiss, Surface antimicrobial activity and
biocompatibility of incorporated poly-
ethylenimine nanoparticles, Biomaterials 29
(31) (2008) 4157
e
4163.
[125] R.O. Darouiche, J.A. Smith Jr., H. Hanna,
C.B. Dhabuwala, M.S. Steiner, R.J. Babaian,
et al., Efficacy of antimicrobial-impregnated
bladder catheters in reducing catheter-associ-
ated bacteriuria: a prospective, randomized,
multicenter clinical
adhesion and biofilm formation, J. Biomed.
Mater. Res. 50 (2) (2000) 160
e
170.
[132] W.A. Jiranek, A.D. Hanssen, A.S. Greenwald,
Antibiotic-loaded bone cement for infection
prophylaxis in total joint replacement, J. Bone
Joint Surg. Am. 88 (11) (2006) 2487
e
2500.
[133] B. Jose, V. Antoci Jr., A.R. Zeiger,
E. Wickstrom, N.J. Hickok, Vancomycin
covalently bonded to titanium beads kills
Staphylococcus aureus, Chem. Biol. 12 (9)
(2005) 1041
e
1048.
[134] E.B. Hume, J. Baveja, B. Muir, T.L. Schubert,
N. Kumar, S. Kjelleberg, et al., The control of
Staphylococcus epidermidis biofilm formation
and in vivo infection rates by covalently
bound furanones, Biomaterials 25 (20) (2004)
5023
e
5030.
[135] K. Vasilev, J. Cook, H.J. Griesser, Antibacte-
rial surfaces for biomedical devices, Expert.
Rev. Med. Devices 6 (5) (2009) 553
e
567.
[136] R.C. Spencer, Novel methods for the preven-
tion of infection of intravascular devices,
J. Hosp. Infect. 43 (Suppl.) (1999) S127
e
S135.
[137] M. Kyomoto, T. Moro, T. Konno,
H. Takadama, H. Kawaguchi, Y. Takatori, et
al., Effects of photo-induced graft polymer-
ization of 2-methacryloyloxyethyl phos-
phorylcholine on physical properties of
cross-linked polyethylene in artificial hip
joints,J.Mate .Sc .Mate .Med.18(9)
(2007) 1809
e
1815.
[138] M. Kyomoto, T. Moro, Y. Takatori,
H. Kawaguchi, K. Nakamura, K. Ishihara,
Self-initiated surface grafting with poly-
(2-methacryloyloxyethyl phosphorylcholine)
on poly(ether-ether-ketone), Biomaterials 31
(6) (2010) 1017
e
1024.
[139] C.I. Pereni, Q. Zhao, Y. Liu, E. Abel, Surface
free energy effect on bacterial retention,
Colloids Surf. B Biointerfaces 48 (2) (2006)
143
e
147.
[140] B. Feddes, J.G.C. Wolke, W.P. Weinhold,
A.M. Vrendenberg, J.A. Jansen, Adhesion of
calcium phosphate coatings on polyethylene
(PE), polystyrene (PS), poly(tetrafluoro-
ethylene) (PTFE), poly(dimethylsiloxane)
(PDMS) and poly-l-lactic acid (PLLA),
J. Adhes. Sci. Technol. 18 (2004) 655
e
672.
[141] N.P. Desai, S.F. Hossainy, J.A. Hubbell,
Surface-immobilized polyethylene oxide for
trial, Urology 54 (6)
(1999) 976
e
981.
[126] A. Ewald, S.K. Gluckermann, R. Thull,
U. Gbureck, Antimicrobial titanium/silver
PVD coatings on titanium, Biomed. Eng.
Online 5 (2006) 22.
[127] B. Gottenbos, H.C. van der Mei, F. Klatter,
P. Nieuwenhuis, H.J. Busscher, In vitro and in
vivo antimicrobial activity of covalently
coupled quaternary ammonium silane coat-
ings on silicone rubber, Biomaterials 23 (6)
(2002) 1417
e
1423.
[128] M. Ip, S.L. Lui, V.K. Poon, I. Lung, A. Burd,
Antimicrobial activities of silver dressings: an
in vitro comparison, J. Med. Microbiol. 55
(Pt 1) (2006) 59
e
63.
[129] A.P. Rauter, S. Lucas, T. Almeida, D. Sacoto,
V. Ribeiro, J. Justino, et al., Synthesis, surface
active and antimicrobial properties of new
alkyl 2,6-dideoxy-l-arabino-hexopyranosides,
Carbohydr. Res. 340 (2) (2005) 191
e
201.
[130] A.R. Statz, J.P. Park, N.P. Chongsiriwatana,
A.E. Barron, P.B. Messersmith, Surface-
immobilised
antimicrobial
peptoids,
Biofouling 24 (6) (2008) 439
e
448.
[131] S.K. Hendricks, C. Kwok, M. Shen,
T.A. Horbett, B.D. Ratner, J.D. Bryers,
Plasma-deposited membranes for controlled
release of antibiotic to prevent bacterial
