EMBARGOED FOR RELEASE | March 29, 2011

Household bleach can decontaminate food prep surfaces in ricin bioterrorist attack

Note to journalists: Please report that this research was presented at a meeting of the American Chemical Society

ANAHEIM, March 29, 2011 — Help for a bioterrorist attack involving ricin, one of the most likely toxic agents, may be as close at hand as the laundry shelf, according to a report presented here today at the 241st National Meeting and Exposition of the American Chemical Society (ACS). It concluded that ordinary household bleach appears to be an effective, low-cost, and widely available way to decontaminate food preparation surfaces in homes, restaurants, and processing plants that are tainted with ricin.

Ricin is a poison found naturally in castor beans, which are grown and processed throughout the world to produce castor oil. Although no longer widely used as a laxative, castor oil remains a key raw material in the manufacture of soaps, paints, dyes, inks, lubricants, hydraulic and brake fluids, and other products. Ricin occurs in the waste “mash” left behind after production of castor oil. Because it is so easy to obtain and so toxic, with no antidote, experts regard ricin as one of the most likely bioterror agents.

Media Contact

During the meeting, March 27-31, the contacts can be reached at:
714-765-2012

Michael Bernstein
202-872-6042
m_bernstein@acs.org

Michael Woods
202-872-6293
m_woods@acs.org

“This discovery is important because it provides a practical, readily available way to inactivate ricin on food processing equipment in the event of an intentional contamination event," said Lauren Jackson, Ph.D., who reported on the research. “It is the first study to explore ricin decontamination in the presence of food, and it shows that household bleach is effective.”

Jackson and colleagues prepared solutions of bleach and two other substances routinely used at food processing plants to disinfect counters, machinery and other surfaces that may contain harmful bacteria or viruses. The other disinfectants were peroxyacetic acid (PAA) and so-called quaternary ammonium compounds. In one set of experiments, they tested the substances on discs of stainless steel smeared with milk-based infant formula, pancake mix, peanut butter and other foods that contained ricin. They also tested the three disinfectants on a “control” solution containing ricin, but without any food, to make sure it was the disinfectants that inactivated ricin and not something present in the foods.

Household bleach turned out to be the most effective anti-ricin agent. Bleach significantly reduced the toxicity of ricin within five minutes, noted Jackson, a research food technologist with the U.S. Food and Drug Administration in Summit-Argo, Ill. Bleach completely eliminated ricin in the “control” samples using just a small amount of bleach. PAA also showed effectiveness, but less so than bleach.

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Bleach shows promise as a low-cost way to inacti-
vate ricin at food processing facilities following a
bioterror attack.