Biomedical Engineering Reference
In-Depth Information
7. Goodman ER et al (2008) Impact of an environmental cleaning intervention on the presence of
methicillin-resistant Staphylococcus aureus and vancomycin-resistant enterococci on surfaces
in intensive care unit rooms. Infect Control Hosp Epidemiol 29(7):593-599
8. Hayden MK et al (2006) Reduction in acquisition of vancomycin-resistant enterococcus after
enforcement of routine environmental cleaning measures. Clin Infect Dis 42(11):1552-1560
9. Hota B (2004) Contamination, disinfection, and cross-colonization: are hospital surfaces
reservoirs for nosocomial infection? Clin Infect Dis 39(8):1182-1189
10. Lu PL et al (2009) Methicillin-resistant Staphylococcus aureus and Acinetobacter baumannii
on computer interface surfaces of hospital wards and association with clinical isolates. BMC
Infect Dis 9:164
11. Mutters R et al (2009) Quantitative detection of Clostridium difficile in hospital environmental
samples by real-time polymerase chain reaction. J Hosp Infect 71(1):43-48
12. Sabino R, Sampaio P, Carneiro C, Rosado L, Pais C (2011) Isolates from hospital environ-
ments are the most virulent of the Candida parapsilosis complex. BMC Microbiol 11(1):180
13. Weber DJ, Rutala WA, Miller MB, Huslage K, Sickbert-Bennett E (2010) Role of hospital
surfaces in the transmission of emerging health care-associated pathogens: norovirus, Clos-
tridium difficile, and Acinetobacter species. Am J Infect Control 38(5 Suppl 1):S25-S33
14. Young JM, Naqvi M, Richards L (2005) Microbial contamination of hospital bed handsets. Am
J Infect Control 33(3):170-174
15. Borkow G, Gabbay J (2008) Biocidal textiles can help fight nosocomial infections. Med
Hypotheses 70(5):990-994
16. Borkow G, Monk AB (2012) Fighting nosocomial infections with biocidal non-intrusive hard
and soft surfaces. World J Clin Infect Dis 12(4):77-90
17. Braymer JJ, Giedroc DP (2014) Recent developments in copper and zinc homeostasis in
bacterial pathogens. Curr Opin Chem Biol 19C:59-66
18. Rademacher C, Masepohl B (2012) Copper-responsive gene regulation in bacteria. Microbi-
ology 158(Pt 10):2451-2464
19. Borkow G et al (2007) Neutralizing viruses in suspensions by copper oxide based filters.
Antimicrob Agents Chemother 51(7):2605-2607
20. Espirito SC, Taudte N, Nies DH, Grass G (2008) Contribution of copper ion resistance
to survival of Escherichia coli on metallic copper surfaces. Appl Environ Microbiol
74(4):977-986
21. Ohsumi Y, Kitamoto K, Anraku Y (1988) Changes induced in the permeability barrier of the
yeast plasma membrane by cupric ion. J Bacteriol 170(6):2676-2682
22. Borkow G, Gabbay J (2005) Copper as a biocidal tool. Curr Med Chem 12(18):2163-2175
23. Dollwet HHA, Sorenson JRJ (2001) Historic uses of copper compounds in medicine. Trace
Elem Med 2:80-87
24. Foye WO, Van De Workeen IB Jr, Matthes JD (1958) Copper complexes of aromatic
dithiocarbamates and their antifungal activity. J Am Pharm Assoc Am Pharm Assoc (Baltim)
47(8):556-558
25. Scigliano JA, Grubb TC, Shay DE (1950) Fungicidal testing of some organocopper
compounds. J Am Pharm Assoc Am Pharm Assoc 39(12):673-676
26. Benns BG, Gingras BA, Bayley CH (1960) Antifungal activity of some thiosemicarbazones
and their copper complexes. Appl Microbiol 8(6):353-356
27. Cross JB et al (2003) Killing of bacillus spores by aqueous dissolved oxygen, ascorbic acid,
and copper ions. Appl Environ Microbiol 69(4):2245-2252
28. Gant VA et al (2007) Three novel highly charged copper-based biocides: safety and efficacy
against healthcare-associated organisms. J Antimicrob Chemother 60(2):294-299
29. Hall TJ, Wren MW, Jeanes A, Gant VA (2009) A comparison of the antibacterial efficacy and
cytotoxicity to cultured human skin cells of 7 commercial hand rubs and Xgel, a new copper-
based biocidal hand rub. Am J Infect Control 37(4):322-326
30. Mato RL, Alatossava T (2010) Effects of copper on germination, growth and sporulation of
Clostridium tyrobutyricum. Food Microbiol 27(3):434-437
Search WWH ::
Custom Search