Many industrial livestock operations raise animals in large conferment buildings and use antibiotics, including non-therapeutically in animals' feed and water to promote their growth. Previous studies have detected strains of drug-resistant S. aureus from livestock, first among farm workers, and subsequently in hospital and community settings in Europe. In the United States, such strains have been detected among industrial livestock operation workers in Iowa and now North Carolina making scientists concerned that these bacteria could follow a similar trajectory into the community. North Carolina is a major livestock producer, ranking second behind Iowa in hog production in the United States.
S. aureus can cause a range of illnesses in humans, from minor to life-threatening skin, bloodstream, respiratory, urinary and surgical site infections. Like most illnesses caused by bacteria, S. aureus infections are treated with antibiotics. According to the Centers for Disease Control and Prevention, some Staph cannot be killed by antibiotics, meaning that they are resistant. MRSA is a strain of Staph bacteria that is resistant to methicillin and certain first-line antibiotics called beta-lactams. Infections with drug-resistant strains, like MRSA, can be particularly difficult to treat.
The study was based on interviews and nose swabs that were collected and analyzed from individuals who worked at two different types of livestock operations in North Carolina. At industrial livestock operations, animals are grown in large confinement buildings using antibiotics. At antibiotic-free livestock operations, animals are grown without the use of antibiotics, typically outdoors on pasture. Researchers tested the S. aureus isolated from nose swabs for resistance to a range of antibiotics and for genetic markers considered to indicate that the bacteria may have come from livestock.
"This study shows that these livestock-associated strains are present among workers at industrial livestock operations and that these strains are resistant not just to methicillin, but to multiple antibiotics, including antibiotics that are used to treat human infections," said Christopher Heaney, PhD, corresponding author of the study and assistant professor of environmental health sciences and epidemiology at the Johns Hopkins Bloomberg School of Public Health.
Workers were not experiencing Staph infections at the time of the study, but when antibiotic resistant bacteria do cause infections, they can be harder to treat. Researchers found that S. aureus that were multidrug-resistant were roughly twice as prevalent among individuals exposed to the industrial compared to the antibiotic-free livestock operation environment. S. aureus that were resistant to tetracycline - an antibiotic that has been used in industrial livestock production since the 1950's - were 19 times as prevalent among industrial compared to antibiotic-free livestock operation workers.
"Livestock-associated methicillin and multidrug resistant Staphylococcus aureus is present among industrial, not antibiotic-free livestock operation workers in North Carolina" was written by Jessica L. Rinsky, Maya Nadimpalli, Steve Wing, Devon Hall, Dothula Baron, Lance B. Price, Jesper Larsen, Marc Stegger, Jill Stewart and Christopher D. Heaney.