Copper kills harmful bacteria, researchers find
Libin Zhu, Sadhana Ravishankar's lab manager, tested the survivability of Salmonella on copper alloys with varying copper concentrations. The bacteria cells sometimes died out on copper surfaces within hours, while they survived for up to two weeks on stainless steel. Credit: Beatriz Verdugo/UANews
(Medical Xpress) -- Each year a tiny, rod-shaped species of bacteria with a fondness for proliferating on human food causes numerous cases of food poisoning around the world, sometimes leading to severe illness and even death.
The culprit, Salmonella enterica, is a leading cause of diarrheal illness worldwide, said Sadhana Ravishankar, an assistant professor in the University of Arizona department of veterinary science and microbiology.
But Ravishankars lab may have discovered a way to reduce the number of food poisoning cases due to Salmonella and possibly other bacteria: prepare food on surfaces made with materials that contain some amount of the element copper, known as copper alloys.
Ravishankars lab collaborated with Chris Rensing, formerly an associate professor in the UA department of soil, water and environmental sciences and now at Research Triangle Institute International, for the study, which was published recently in the journal Food Microbiology.
Chris Rensing had already done some research with copper, and he knew that copper surfaces have antimicrobial activity, said Ravishankar.
The International Copper Association donated six samples of copper alloys for the study, including samples of copper mixed with metals such as nickel, iron, chromium, phosphorous and tin that varied in their copper concentration from 60 to 99.9 percent.
Copper is harmful to bacteria because it reacts with oxygen in the atmosphere over time in a process called oxidation, which produces a residue that is toxic to some bacteria. Oxidation is what makes pure copper change in color over time from a rusty gold to a watery green.
We decided to see the antimicrobial effect of all these copper alloy surfaces on Salmonella, said Ravishankar. Salmonella was selected as the microbial guinea pig for the study because of its prevalence and the significant harm it causes worldwide because of diarrheal disease.
Salmonella has caused outbreaks from eating a broad range of different types of foods, including meats and poultry, dairy products, peanut products, ice creams and even chocolate, said Ravishankar.
Ravishankar found that because of oxidation, food contact surfaces made of materials containing copper are far less habitable for bacteria than stainless steel, which showed no antimicrobial properties at all.
Right now, food industries use stainless steel, said Ravishankar, and stainless steel does not seem to have any antimicrobial activity. If there are bacteria on a stainless steel surface, she said: They will survive for a long time.
The researchers tested the survivability of Salmonella on six different copper alloys. Bacteria die out on surfaces containing copper much more quickly than on stainless steel surfaces, owing to the antibacterial properties of copper. Credit: Beatriz Verdugo/UANewsOne test by Ravishankars lab manager, Libin Zhu, showed that Salmonella can survive for longer than two weeks on stainless steel surfaces. By contrast, the bacteria showed significant reductions on copper alloys.
In most cases, Salmonella on steel surfaces dropped in concentration from 10 million cells to 1 million cells, said Zhu. However, on copper alloys, the concentrations of bacteria dropped by a far greater number, to 100 cells or less.
The researchers replicated the environments in which bacteria might grow on food contact surfaces. Closed plates reproduced the effects of a wet surface by not allowing humidity to escape, while open plates such as these reproduced a dry surface. Credit: Beatriz Verdugo/UANewsWe tested three copper-resistant strains and one copper-sensitive strain, said Zhu. Copper-resistant strains are lineages of bacteria that have been exposed to copper for several generations, long enough for the cells to develop genetic resistance to its antimicrobial effects. Copper-sensitive strains, by contrast, have never been exposed to copper and are much more susceptible to the toxicity of oxidation.
The researchers placed small samples of each of the Salmonella strains onto the copper alloys, and stored them at different conditions to simulate different types of food processing environments in which the bacteria might exist.
Salmonella can be a problem in dry foods and wet foods, Ravishankar said.
Dry foods include products such as peanut butter, almond products and chocolate, while wet foods include vegetables such as tomatoes, lettuce and spinach, milk and other dairy products and anything processed in a wet environment.
Salmonella survived for longer in the simulated wet conditions than in dry conditions, Zhu said. In addition, copper resistant strains under dry conditions only survive for about 15 minutes just about five minutes longer than the sensitive strain.
In dry conditions, oxidation occurs more quickly because the copper in the surface comes into contact with oxygen in the air.
The researchers further tested how well the bacteria would survive in a nutrient-rich medium versus in a non-nutrient medium. The rich medium can protect the cells from the copper, said Ravishankar. We saw survival on the nutrient-rich medium initially, but soon the cells started to die off because of nutrient depletion.
The researchers also saw that Salmonella cells on alloys with high copper concentrations began to die out much faster than those on surfaces with lower copper concentrations.
For the highest copper concentration Salmonella cells die off in under 30 minutes, said Zhu. But for the other alloys containing lower copper concentrations, the bacteria can survive up to two hours.
This is still much less than the two weeks survival achieved by Salmonella on stainless steel, leading the researchers to their conclusion: Copper alloys may be more hygienic surfaces for food processing and preparation than stainless steel.
Ravishankar said she would like to do further tests to see if organic materials on a food contact surface, such as crumbs wedged in cracks or leftover protein residues or grease from oils, could change the effectiveness of copper alloys as antimicrobial agents.
In a food processing environment, there are going to be hard-to-reach areas where you can still have food particles, said Ravishankar. We want to see if the presence of food particles or some kind of organic matter on the copper surfaces changes the efficacy of the copper alloy. Does it become less effective, or is it equally effective?
Using pure copper is not currently an option, Ravishankar said, due to the high cost of pure copper, and also due to as-yet unresolved concerns that high concentrations of copper residues could potentially have toxic effects on humans as well, if they were ingested.
In the meantime, while using copper alloys as cooking surfaces instead of stainless steel may be slightly more costly, it will be worthwhile, Ravishankar said. The high antimicrobial potency of copper alloys, she said, has the potential to significantly reduce cases of food poisoning.
Ravishankars study was funded by the International Copper Association, with preliminary research supported by Ravishankars start-up funds from the UA College of Agriculture and Life Sciences.
Provided by University of Arizona
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