Healthcare-associated Infections
9. Noyce JO, Michels H, Keevil CW, Inactivation of influenza A virus on copper versus stainless steel surfaces, Appl Environ Microbiol, 2007;73(8):2748–50.
10. Weaver L, Michels HT, Keevil CW, Survival of Clostridium difficile on copper and steel: futuristic options for hospital hygiene, J Hosp Infect, 2008;68:145–51.
11. Wheeldon LJ, Worthington T, Lambert PA, et al., Antimicrobial efficacy of copper surfaces against spores and vegetative cells of Clostridium difficile: the germination theory, J Antimicrob Chemother, 2008;62:522–5.
12. Kouskouni E, Tsouma I, Patikas I, et al., Antimicrobial activity of copper alloys compared to aminoglycosides against multidrug resistant bacteria, Abstract 3597, Presented at: the ECCMID-ICC, 7–10 May 2011.
13. Michels HT, Anderson DG, Antimicrobial regulatory efficacy testing of solid copper alloy surfaces in the USA, Metal Ions Biol Med, 2008;10:185–90.
14. Santo CE, Ee WL, Elowsky CG, et al., Bacterial killing by dry metallic copper surfaces, Appl Environ Microbiol,
2011;77(3):794–802.
15. Keevil CW, Warnes SL, New insights into the antimicrobial mechanisms of copper touch surfaces, BMC Proceedings, 2011;5(Suppl. 6):P39.
16. Warnes SL, Keevil CW, Mechanism of copper surface toxicity in vancomycin-resistant enterococci following ‘wet’ or ‘dry’ contact, Appl Environ Microbiol, 2011;[Epub ahead of print].
17. Sasahara T, Niiyama N, Ueno M, Use of copper and its alloys to reduce bacterial contamination in hospitals (invited lecture), J JRICu, 2007;46(1);12–6.
18. Casey A, Adams D, Karpanen TJ, et al., Role of copper in reducing hospital environment contamination, J Hosp Infect, 2010;74:72–7.
19. Prado V, Duran C, Crestto M, et al., Effectiveness of copper contact surfaces in reducing the microbial burden (MB) in the intensive care unit (ICU) of Hospital del Cobre, Calama, Chile, Presented at: the 14th International Conference on Infectious Diseases, Poster 56.044, Miami, 11 March 2011.
20. Hirsch BE, Attaway H, Nadan R, et al., Copper Surfaces
Reduce the Microbial Burden in an Out-Patient Infectious Disease Practice, Poster 458, Presented at: the 50th Interscience Conference on Antimicrobial Agents in Chemotherapy (ICAAC), Boston, MA, 12–15 September 2010.
21. Schmidt MG, Copper Touch Surface Initiative Microbiology and Immunology, Medical University of South Carolina, Charleston, USA, BMC Proceedings, 2011;5(Suppl. 6):O53
22. Copper Development Association, Pioneering eco care home specifies antimicrobial copper – Laval, France, PR 799, 2011.
23. Copper Development Association, Antimicrobial Copper to Protect Children against Infections – Tokyo, Japan, PR 797, 2011.
24. Efstathiou P, Koustoni E, Tseroni M, et al., Elementary schools in Athens – application of antimicrobial copper, Presented at: XVI Congreso Nacional y V Internacional de la Sociedad Española de Medicina Preventiva alud Publica e Higiene, (SEMPSPH), 25–27 May 2011.
25. Financial Report, Codelco, January – March 2011.
128
EUROPEAN INFECTIOUS DISEASE
Page 1 |
Page 2 |
Page 3 |
Page 4 |
Page 5 |
Page 6 |
Page 7 |
Page 8 |
Page 9 |
Page 10 |
Page 11 |
Page 12 |
Page 13 |
Page 14 |
Page 15 |
Page 16 |
Page 17 |
Page 18 |
Page 19 |
Page 20 |
Page 21 |
Page 22 |
Page 23 |
Page 24 |
Page 25 |
Page 26 |
Page 27 |
Page 28 |
Page 29 |
Page 30 |
Page 31 |
Page 32 |
Page 33 |
Page 34 |
Page 35 |
Page 36 |
Page 37 |
Page 38 |
Page 39 |
Page 40 |
Page 41 |
Page 42 |
Page 43 |
Page 44 |
Page 45 |
Page 46 |
Page 47 |
Page 48 |
Page 49 |
Page 50 |
Page 51 |
Page 52 |
Page 53 |
Page 54 |
Page 55 |
Page 56 |
Page 57 |
Page 58 |
Page 59 |
Page 60 |
Page 61 |
Page 62 |
Page 63 |
Page 64 |
Page 65 |
Page 66 |
Page 67 |
Page 68 |
Page 69 |
Page 70 |
Page 71 |
Page 72 |
Page 73 |
Page 74 |
Page 75 |
Page 76 |
Page 77 |
Page 78 |
Page 79 |
Page 80 |
Page 81 |
Page 82 |
Page 83 |
Page 84 |
Page 85 |
Page 86 |
Page 87 |
Page 88 |
Page 89 |
Page 90 |
Page 91 |
Page 92