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Published on 26/05/2014

About Coagulase Positive Staphylococci

There are 3 coagulase-positive Staphylococcus (CPS) species:

  • Staphylococcus aureus,
  • Staphylococcus hyicus,
  • Staphylococcus intermedius.

Among those three species, S. aureus is the specie with the more pathogenic of the genus Staphylococcus. In the frame of the mandate, the hazard considered is food poisoning due to the enterotoxins of S. aureus.

Staphylococcus aureus and staphylococcal enterotoxins

Staphylococcus is the main genus of the Staphylococcacceae family in the order of Bacillales, the class of Bacilli and the phylum of Firmicutes.

Nature and habitat

Main microbiological characteristics
A non spore-forming, non motile, facultative aeroanaerobic Gram-positive coccus, 0.5 to 1 micrometre in diameter, catalase- and coagulase-positive. S. aureus , the type species of the Staphylococcus genus is a golden yellow colony-forming Staphylococcus. It produces numerous toxins including staphylococcal enterotoxins (SEs) responsible for staphylococcal food-poisoning outbreaks (SFPO). To date, 21 different serotypes (SEA to SEE, SEG to SEV) have been described, six of them have been involved in SFPO: SEA (the most commonly detected in SFPO) to SEE, SEH. Unlike the bacterium, SEs are stable to heat treatments generally applied during food processing.
Other species of coagulase-positive staphylococci (CPS) can also produce SEs, but their role in SFPO has still not been clarified.

Zoonotic character (1)
S. aureus is a zoonotic bacterium. However, the strains isolated in cases of SFPO are for the most part of human origin due to a human contamination of a food during the process.

Reservoir (telluric, environmental, animal, human)
Staphylococci are ubiquitous bacteria found on the skin, nose and throat in warm-blood animals (mammals and birds) and especially in humans. They have also been isolated in the natural environment (soil, water, dust and air), at home (kitchen, fridge), in hospitals environment, in food processing plants and from foodstuffs. Since S. aureus are found on the skin and mucous membranes of humans and animals, the presence of this germ in the environment is likely to have been caused by contamination by humans or animals.

Human disease

Symptomatic forms and asymptomatic infectious forms
The foodborne human disease is due to the ingestion of preformed SEs in food, in which S. aureus or any other SE-producing staphylococci has been able to develop in such a way as to produce its (or their) toxin(s).
The incubation period and severity of symptoms observed depend on the amount of enterotoxins ingested and the susceptibility of each person. Initial symptoms, nausea followed by incoercible characteristic vomiting (in spurts), appear within 30 minutes to eight hours (three hours on average) after ingesting the contaminated food. Other commonly described symptoms are abdominal pain, diarrhoea, dizziness, shivering and general weakness sometimes associated with a moderate fever. In the most severe cases, headaches, prostration and low blood pressure have been reported. In the majority of cases, recovery occurs within 18 to 24 hours without specific treatment, while diarrhoea and general weakness can last 24 hours or longer. Death is rare, occurring in the most susceptible people to dehydration (infants and the elderly) and people affected by an underlying illness.
Asymptomatic carriage of S. aureus does exist:

  • intestinal carriage: 20-30% of adults;
  • nasal carriage: 20 to 55% (37% on average) of adults in the general population;
  • hands: 10% of hospital or restaurant staff.

Role of foods

Food(s) involved
S. aureus may be isolated from a wide variety of food. The most “at-risk” foods are:

  • recontaminated foods after heat treatment or any other process eliminating the competitive microfl ora. The more the food is handled, the higher the risk. For example, cooked and sliced meat, poultry and ham, mixed salads including rice and vegetable salads, cream cakes and cooked dishes handled after cooking;
  • fermented foods, where slow acidification permits growth of S. aureus during fermentation. For example, cheese or salami. The risk is enhanced when starters cultures are not used or poorly controlled;
  • dried and intermediate-moisture products where growth of S. aureus is favoured at some stage in processing or storage by a combination of temperature and reduced aw. For example, powered milk, pasta and dried fish.

Dishes requiring human handling (mixed salads, prepared dishes) and secondly, dairy products are the most commonly associated with SFPO reported in France.

Conditions leading to contamination
Four conditions are required for food contamination to occur:

  • a source of enterotoxin-producing staphylococci (raw material, healthy or infected carrier, etc.);
  • a transfer of staphylococci from source to food (dirty cutting tool, healthy or infected carrier, etc.);
  • a food presenting suitable physicochemical characteristics for S. aureus growth and toxinogenesis (see C.a, the most “at-risk” foods) and;
  • a suitable temperature and a sufficient time for sizeable bacterial growth and for toxin production.

Control measures (4) in the food sector
Good hygiene practices (GHP)
The prevention of SFPO is based on hygiene measures in order to avoid or limit the contamination of food by S. aureus. These must include monitoring of the health of animals (mastitis, for example), good manufacturing practices (GMPs) and cleaning and disinfection of equipments and environmental surfaces.
Moreover for people involved in food processing, the hand care as well as the wear of hair protection covering the whole of the scalp are essential good hygiene practices that must be followed. Food handlers presenting skin lesions must be excluded from handling non-packaged foods, while the lesions are not correctly covered (gloves).
Likewise, a mask must be worn when suffering from any throat type symptom. Regarding preventive measures carried out by at-risk food handlers, it is not necessary to screen S. aureus carrier before recruitment, nor to exclude a healthy carrier (nose or throat carriage), provided that these GHPs are applied.
Since these measures are not enough to achieve zero contamination, it is necessary to destroy staphylococci through suitable treatment, heat or other, before they have multiplied, or to prevent their growth by food storage under +6°C. Complying with the cold chain is vital as far as staphylococci are concerned. All food technological processes applied in a hazardous temperature zone must be short or rely on parameters other than temperature to stop bacterial growth. Since staphylococci are heatsensitive, whereas their enterotoxins are thermostable, making safe a highly contaminated product by S. aureus is not guaranteed by heat treatment. This will destroy the bacteria but not their enterotoxins if these are present.
It must be considered that, once preformed in food, enterotoxins cannot be eliminated effectively.

Characteristics of sanitary treatments
Destruction of S. aureus : heat treatment higher than pasteurisation, radiation at doses of around 5 kGray, treatment by aldehydes and alkaline products. For foods with an aw of 0.99 and pH between 6.5 and 7.0, the usual values of D (decimal reduction time) at 60°C and 72°C vary from 0.8 to 10 minutes and 0.1 to 1 second respectively, depending on the food and strain tested.
Destruction of SEs: no compatible treatment with food processes can guarantee complete inactivation.
Depending on the amount of enterotoxins initially present, sterilisation (of milk for example, UHT-type treatment) can only partially destroy the SEs, leaving enough in the food to cause SFPO.

(1) Zoonosis: an infectious disease that can be transmitted from vertebrate animals to humans and vice-versa under natural conditions.
(2) Relationship between the dose and the effect in an individual.
(3) For a given effect, relationship between the dose and the response in the population.
(4) “measures and activities that can be carried out to prevent or eliminate a hazard which threatens food safety or to bring it to an acceptable level”, standard AFNOR NF V01-002
(5) In food, coagulase-positive staphylococci are mainly represented by the species S. aureus.

 

 

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Monitoring in foods

Current regulations and self-inspection requirements
Regulation (EC) No 2073/2005 of 15 November 2005 on microbiological criteria for foodstuffs (amended). This regulation refers to two types of microbiological criteria: process hygiene criteria and safety criteria. CPS (5) are one of the process hygiene criteria in milk and dairy product type matrices and shelled, cooked crustaceans and shellfi sh, whereas staphylococcal enterotoxins are one of the safety criteria in milk and dairy product type matrices.

Principles of detection and enumeration methods
Enumeration of CPS: NF EN ISO 6888-1/-2/-3. The first two parts are conventional techniques for counting colonies on selective agar medium after direct inoculation of decimal dilutions of the food and incubation at 37°C.
The third part describes a detection and enumeration method by the most probable number technique after an enrichment step. Detection of SEA to SEE type staphylococcal enterotoxins:
Community Reference Laboratory methods for Coagulase-Positive Staphylococci and enterotoxins, using qualitative enzyme immuno-assays methods. To date, the commercially available kits are only able to detect SEA to SEE toxins.

Domestic hygiene

  • Good hygiene practices when handling and preparing food.
  • Complying with the cold chain.

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