Lebenslauf - OPUS - Universität Würzburg
Lebenslauf - OPUS - Universität Würzburg
Lebenslauf - OPUS - Universität Würzburg
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7. Literaturverzeichnis<br />
138 Bellantone, M.; Coleman, N.J.; Hench, L.L. (2000): Bacteriostatic action of a novel<br />
four-component bioactive glass. J Biomed Mater Res A; 51: 484-490<br />
139 Jansen, B.; Rinck, M.; Wolbring, P.; Strohmeier, A.; Jahns, T. (1994): In-vitro<br />
evaluation oft he antimicrobial efficacy and biocompatibility of a silver-coated Central<br />
Venous Catheter. J Biomater Appl; 9: 55-70<br />
140 Bellantone, M.; Williams, H.D.; Hench, L.L. (2002): Broad-spectrum bactericidal<br />
activity of Ag(2)O-doped bioactive glass. Antimicrob Agents Chemother; 46:1940-<br />
1945<br />
141 Chambers, C.W.; Proctor, C.M.; Kabler, P.W. (1962): Bactericidal effect of low<br />
concentrations of silver. JA Water Works Assoc; 54: 208-214<br />
142 Thurman, R.B.; Gerba, C.H.B. (1989): The molecular mechanisms of copper and<br />
silver ion desinfection of bacteria and viruses. Crit Rev Environ Control; 18: 295-315<br />
143 Hollinger, M.A (1996): Toxicological aspects of topical silver pharmaceuticals. Crit<br />
Rev Toxicol; 26(3): 255-260<br />
144 Zimmermann, W. (1952): Oligodynamische Silberwirkung. Über den<br />
Wirkungsmechanismus. Med. Microbiol. Immunol.; 135: 403-413<br />
145 Adams, A. P.; Santschi, E. M.; Mellencamp, M. A. (1999): Antibacterial properties<br />
of a silver chloride-coated nylon wound dressing. Vet Surg; 28 (4): 219-25<br />
146 Reiche, T.; Lisby, G.; Jorgensen, S.; Christensen, A.B.; Nordling, J. (2000): A<br />
prospective, controlled, randomized study of the effect of a slow-release silver device<br />
on the frequency of urinary tract infection in newly catheterized patients. BJU Int; 85:<br />
54-59<br />
147 Kim, T.N.; Feng, Q.L.; Kim, J.O.; Wu, J.; Wang, H.; Chen, G.C.; Cui, F.Z. (1998):<br />
Antimicrobial effects of metal ions (Ag + , Cu 2+ , Zn 2+ ) in hydroxyapatite. J Mater Sci<br />
Mater Med 9(3): 129-134<br />
148 Feng, Q.L.; Wu, J.; Chen, G.Q.; Cui, F.Z.; Kim, T.N.; Kim, J.O. (2000): A<br />
mechanistic study of the antibacterial effect of silver ions on Escherichia coli and<br />
Staphylococcus aureus. J Biomed Mater Res; 52: 662-668<br />
149 Kawashita, M.; Tsuneyama, S.; Miyaji, F.; Kokubo, H.; Kozuka, H.; Yamamoto, K.<br />
(2000): Antibacterial silver-containing silicia glass prepared by sol-gel method.<br />
Biomaterials; 21: 393-398<br />
150 Böswald, M.; Lugauer, S.; Braun, G.G.; Martus, P.; Geis, C.; Scharf, J.; Bechert,<br />
T.; Greil, J.; Guggenbichler, J.P. (1999): Reduced rates of catheter-associated<br />
infection by use of a new silver-impregnated central venous catheter. Infection; 27<br />
(Suppl 1): 56-60.<br />
151 Nissen, S.; Furkert, F. H. (2000): Antimikrobielle Wirksamkeit einer Silberbeschichtung<br />
von Hydrogellinsen. Ophthalmologe; 97: 640-643<br />
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