Copper surfaces are associated with significantly lower concentrations of bacteria on selected surfaces within a pediatric intensive care unit

Michael G. Schmidt, Bettina von Dessauer, Carmen Benavente, Dona Benadof, Paulina Cifuentes, Alicia Elgueta, Claudia Duran,Maria S. Navarrete

American Journal of Infection Control, 2015

2. HygieneS 2014_Page_1

Étude de l’effet antimicrobien du laiton AB+® : pour une maîtrise des biocontaminations des équipements hospitaliers

A. Ruelle, M. Sion, C. Damiani, A. Totet, C. Segard, A. Leke, C. Adjidé, M. Biendo, F. Telliez, V. Bach, H. Khorsi-Cauet

HYGIÈNES – 2014 – Volume XXII – n° 2



3. Copper reduce rate HAI in intensive care unit_Page_1

Copper Surfaces Reduce the Rate of Healthcare-Acquired Infections in the Intensive Care Unit

Cassandra D. Salgado, Kent A. Sepkowitz, Joseph F. John, J. Robert Cantey, Hubert H. Attaway, Katherine D. Freeman, Peter A. Sharpe, Harold T. Michels, Michael G. Schmidt

Infect Control Hosp Epidemiol 2013;34(5):479-486

4. Efficacy of Copper Alloy Furnishing in Clinical Environment_Page_1

The Antimicrobial Efficacy of Copper Alloy Furnishing in the Clinical Environment: A Crossover Study

J. Karpanen, A. L. Casey, P. A. Lambert, B. D. Cookson, P. Nightingale, L. Miruszenko, T. S. J. Elliott

Infect Control Hosp Epidemiol 2012;33(1):3-9



5. inactivation-of-influenza-a_Page_1

Inactivation of Influenza A Virus on Copper versus Stainless Steel Surfaces

O. Noyce, H. Michels, and C. W. Keevil