Marthe K. Charles, Teresa C. Williams, Davood Nakhaie, Tracey Woznow, Billie Velapatino, Ana C. Lorenzo-Leal, Horacio Bach, Elizabeth A. Bryce, Edouard Asselin
{"title":"在模拟使用 200 次后,对三种铜产品的抗菌和抗病毒活性进行体外评估。","authors":"Marthe K. Charles, Teresa C. Williams, Davood Nakhaie, Tracey Woznow, Billie Velapatino, Ana C. Lorenzo-Leal, Horacio Bach, Elizabeth A. Bryce, Edouard Asselin","doi":"10.1007/s10534-023-00572-z","DOIUrl":null,"url":null,"abstract":"<div><p>Copper has well-documented antibacterial effects but few have evaluated it after prolonged use and against bacteria and viruses. Coupons from three copper formulations (solid, thermal coating, and decal applications) and carbon steel controls were subjected to 200 rounds simulated cleaning using a Wiperator™ and either an accelerated hydrogen peroxide, quaternary ammonium, or artificial sweat products. Antibacterial activity against <i>S. aureus</i> and <i>P. aeruginosa</i> was then evaluated using a modified Environmental Protection Agency protocol. Antiviral activity against coronavirus (229E) and norovirus (MNV-1) surrogates was assessed using the TCID<sub>50</sub> method. Results were compared to untreated control coupons. One hour after inoculation, <i>S. aureus</i> exhibited a difference in log kill of 1.16 to 4.87 and <i>P. aeruginosa</i> a log kill difference of 3.39–5.23 (dependent upon copper product and disinfectant) compared to carbon steel. MNV-1 demonstrated an 87–99% reduction on each copper surfaces at 1 h and 99% reduction at 2 h compared to carbon steel. Similarly, coronavirus 229E exhibited a 97–99% reduction after 1 h and 90–99% after 2 h. Simulated use with artificial sweat did not hinder the antiviral nor the antibacterial activity of Cu surfaces. Self-sanitizing copper surfaces maintained antibacterial and antiviral activity after 200 rounds of simulated cleaning. </p><h3>Graphical abstract</h3>\n<div><figure><div><div><picture><source><img></source></picture></div></div></figure></div></div>","PeriodicalId":491,"journal":{"name":"Biometals","volume":"37 4","pages":"849 - 856"},"PeriodicalIF":4.1000,"publicationDate":"2023-12-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11255078/pdf/","citationCount":"0","resultStr":"{\"title\":\"In vitro assessment of antibacterial and antiviral activity of three copper products after 200 rounds of simulated use\",\"authors\":\"Marthe K. Charles, Teresa C. Williams, Davood Nakhaie, Tracey Woznow, Billie Velapatino, Ana C. Lorenzo-Leal, Horacio Bach, Elizabeth A. Bryce, Edouard Asselin\",\"doi\":\"10.1007/s10534-023-00572-z\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Copper has well-documented antibacterial effects but few have evaluated it after prolonged use and against bacteria and viruses. Coupons from three copper formulations (solid, thermal coating, and decal applications) and carbon steel controls were subjected to 200 rounds simulated cleaning using a Wiperator™ and either an accelerated hydrogen peroxide, quaternary ammonium, or artificial sweat products. Antibacterial activity against <i>S. aureus</i> and <i>P. aeruginosa</i> was then evaluated using a modified Environmental Protection Agency protocol. Antiviral activity against coronavirus (229E) and norovirus (MNV-1) surrogates was assessed using the TCID<sub>50</sub> method. Results were compared to untreated control coupons. One hour after inoculation, <i>S. aureus</i> exhibited a difference in log kill of 1.16 to 4.87 and <i>P. aeruginosa</i> a log kill difference of 3.39–5.23 (dependent upon copper product and disinfectant) compared to carbon steel. MNV-1 demonstrated an 87–99% reduction on each copper surfaces at 1 h and 99% reduction at 2 h compared to carbon steel. Similarly, coronavirus 229E exhibited a 97–99% reduction after 1 h and 90–99% after 2 h. Simulated use with artificial sweat did not hinder the antiviral nor the antibacterial activity of Cu surfaces. 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In vitro assessment of antibacterial and antiviral activity of three copper products after 200 rounds of simulated use
Copper has well-documented antibacterial effects but few have evaluated it after prolonged use and against bacteria and viruses. Coupons from three copper formulations (solid, thermal coating, and decal applications) and carbon steel controls were subjected to 200 rounds simulated cleaning using a Wiperator™ and either an accelerated hydrogen peroxide, quaternary ammonium, or artificial sweat products. Antibacterial activity against S. aureus and P. aeruginosa was then evaluated using a modified Environmental Protection Agency protocol. Antiviral activity against coronavirus (229E) and norovirus (MNV-1) surrogates was assessed using the TCID50 method. Results were compared to untreated control coupons. One hour after inoculation, S. aureus exhibited a difference in log kill of 1.16 to 4.87 and P. aeruginosa a log kill difference of 3.39–5.23 (dependent upon copper product and disinfectant) compared to carbon steel. MNV-1 demonstrated an 87–99% reduction on each copper surfaces at 1 h and 99% reduction at 2 h compared to carbon steel. Similarly, coronavirus 229E exhibited a 97–99% reduction after 1 h and 90–99% after 2 h. Simulated use with artificial sweat did not hinder the antiviral nor the antibacterial activity of Cu surfaces. Self-sanitizing copper surfaces maintained antibacterial and antiviral activity after 200 rounds of simulated cleaning.
期刊介绍:
BioMetals is the only established journal to feature the important role of metal ions in chemistry, biology, biochemistry, environmental science, and medicine. BioMetals is an international, multidisciplinary journal singularly devoted to the rapid publication of the fundamental advances of both basic and applied research in this field. BioMetals offers a forum for innovative research and clinical results on the structure and function of:
- metal ions
- metal chelates,
- siderophores,
- metal-containing proteins
- biominerals in all biosystems.
- BioMetals rapidly publishes original articles and reviews.
BioMetals is a journal for metals researchers who practice in medicine, biochemistry, pharmacology, toxicology, microbiology, cell biology, chemistry, and plant physiology who are based academic, industrial and government laboratories.