Staphylococcus aureus is a common cause of foodborne illness that is not covered in some epidemiologic surveillance programmes. Some strains of Staphylococcus aureus cause staphylococcal food poisoning through production of heat-stable staphylococcal toxins. All people are believed to be susceptible to this type of bacterial intoxication. However, the intensity of the symptoms may vary related to the amount of contaminated food ingested and susceptibility of the individual to the toxin.
Onset of staphylococcal food poisoning symptoms ranges from 30 minutes to seven hours (the mean is two to four hours) after consumption of foods containing pre-formed toxins. Nausea, vomiting, abdominal cramps, prostration and diarrhea are common symptoms. Recovery usually takes about two days.
Staphylococcus aureus is also responsible for skin abscesses, pneumonia, bacteremia, endocarditis and toxic shock syndrome. These infections are not due to a foodborne source and typically require treatment with antibiotics and hospitalization.
Staphylococcus aureus is a common bacterium found on the skin and in the noses of up to 50 percent of healthy people and animals. Staph. aureus does not compete well with other organisms, so outbreaks are not usually associated with raw products where high numbers of other bacteria are present. The exception may be milk from mastitic cows, as Staph. aureus is a cause of mastitis.
Typical foods associated with Staph. aureus outbreaks include high-protein products that are handled during processing or preparation.
The toxins produced by Staph. aureus are very heat stable. For example, even canned mushrooms have caused outbreaks. The mushrooms were stored in a brine solution when harvested, which inhibited growth of competitive flora. Toxin formed during storage prior to canning and remained active even after the canning process.
Time and temperature control to prevent the growth of the organism is the primary control measure for Staph. aureus. Products can be formulated to prevent growth as well. Personal hygiene is also important to help prevent product contamination from food handlers. It is important to note that heating food after toxin is formed will not be an effective control.
Temperature, pH and water activity limits for growth are broader than those for toxin production, and anaerobic conditions (lack of oxygen) restricts toxin production further. For example, Staph. aureus can grow in the range of 7 – 48°C, and toxin is produced from 10 – 48°C. The minimum water activity for growth is 0.83 aerobically and 0.90 anaerobically, while toxin is limited aerobically at 0.87 and anaerobically at 0.92. The pH range for growth is 4 – 10, while the lower toxin production limit is 4.5 aerobically and 5.0 anaerobically (International Commission on Microbiological Specifications of Foods, 1996).
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