Researchers Improve Beef Jerky Safety

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Consumers may eb concerned about the safety of their meals because of the recent recalls due to E. coli O157:H7 and Salmonella contamination. However, thanks to two Kansas State University researcher beef jerky lovers can rest easier.

The University press release says that with funding provided by the U.S. Department of Agriculture's Food Safety and Inspection Service, K-State researchers Elizabeth Boyle and Kelly Getty have validated a new way for small-scale jerky producers to keep both E. coli O157:H7 and Salmonella out of the food chain.

"The number of small plants producing jerky and other meat products has declined rapidly since the 1990s," Boyle said. "The standards became more strict and, in some cases, harder to abide by. That trend has had a definite economic impact on small towns like those in Kansas that have traditionally been home to smaller-scale meat producers."

Boyle and Getty worked with food science graduate student Nigel Harper, Ind., and Shelly Roberts, a December 2006 master's graduate in food science. The team focused on validating a process that would effectively destroy pathogens of concern, but that wouldn't be more burdensome to small producers.

Jerky is made using a combination of heating and drying. First the research team first surveyed plants in several states to find out what processes were being used to control pathogens, and what the "worst-case" processing scenario was.

Then they evaluated the efficacy of the worst-case scenario thermal process to destroy E. coli O157:H7 and Salmonella.

A commercial processor provided samples of the batter used to make chopped and formed beef jerky. The research team inoculated the raw batter with either E. coli O157:H7 or Salmonella and extruded it into strips measuring 2.54 long by 0.64 centimeters wide.

Then the strips were thermally processed in K-State's own pathogen dedicated commercial smokehouse for nearly seven hours, using varying rates of relative humidity and temperature.

The team determined that the worst-case scenario for a commercial jerky process does not adequately reduce the pathogens as required by the U.S. Department of Agriculture's Food Safety and Inspection Service.

They found that in order to ensure that both pathogens were destroyed an additional hour and a half of drying at 68 degrees Celsius was needed.

"Though the worst-case scenario for a commercial jerky process did reduce the presence of Salmonella to the required level, it didn't have the desired effect on E. coli O157:H7," Getty said.

"Additional drying was needed to kill off both pathogens at the levels required by the Food Safety and Inspection Service."

The results of this research were presented by Nigel Harper at the 13th Annual K-State Research Forum, where he received first place in the poster competition for his work on the project.

"We hope that our research has provided a process for small processors that produce safe beef jerky without creating an extra burden," Getty said. "Really, the adjustments were suggesting are minor and will enhance the safety of jerky for the consumer."