Erysipelas

A zoonotic bacterial disease affecting pigs of all ages

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Pig Diseases

Erysipelas in Pigs

Also known as: Erysipelothrix rhusiopathiae

Swine erysipelas is a disease that is caused by the bacteria Erysipelothrix rhusiopathiae, which is a Gram -positive rod-shaped facultative bacteria. Swine erysipelas is the most important infectious agent responsible for non-suppurative joint disease in pigs world-wide (Johnston et al., 1987). It is endemic in most pig-producing areas, occurring in outbreaks in susceptible herds. Up to 50% of healthy pigs can carry the organism in their tonsils (Okolo, 1986; Takahashi et al., 1987). Erysipelothrix infections have been reported in as many as 50 different species of animals, although the highest occurrence is found in domestic pigs (Colavita et al., 2006). In sheep it has been implicated in cases of joint-ill. Humans can also be infected with Erysipelothrix rhusiopathiae; this zoonotic organism is an occupational pathogen which is prevalent in those working with animals, or with animal products (Brooke and Riley, 1999).

pig in water

Erysipelothrix rhusiopathiae bacteria can survive for long periods in the environment and in water. Water systems can become infected with the bacteria and be a source of disease.

The bacteria are widespread in the environment and stress, husbandry methods, and intercurrent disease are key risk factors. Establishment of infection occurs through regular contamination of damaged skin resulting from poorly constructed floors and cohabitation with other carrier species such as birds.

Infection is characterized by acute or sub-acute septicaemia and chronic lesions, usually arthritis or valvular endocarditis (heart condition with lesions in the heart valves). The speed of multiplication and the level of immunity in the pig determines the clinical symptoms.

The most typical symptoms of acute septicaemia are high fever and distinctive skin lesions (“diamonds”). These lesions may appear as early as 2 or 3 days after infection, however they do not appear in every clinical case, and their presence is only indicative of erysipelas not conclusive.  The lesions vary in size, from small 1–2 cm diamonds to 4–5 cm blotches, and color, from light pink and purple to an intensely red area with a white centre, appearing like targets on the skin. If the animal survives, typical lesions may disappear in about a 4–7 days if not complicated (Colavita et al., 2006).

Chronic arthritis is manifested in lameness and swollen joints, most commonly the hock, stifle elbow and carpal joints (Colavita et al., 2006). Currently, chronic arthritis is the most common form of the disease in the UK. Infertility can occur in affected sows (Martinez et al., 2008), especially if they have clinical signs around mating time. Infections may cause abortion or influence stillbirth rate and litter size (Gertenbach and Bilkei, 2002). Chronic heart valves lesions can cause unexpected mortality.

According to the EU regulation 854/2004 for meat inspection, enforced in January 2006, any swine carcass affected by erysipelas must be destroyed and when pigs show erysipelas during ante-mortem inspection, the slaughtering must be defered, although the length of this period is not specified (Colavita et al., 2006). Colavita et al (2006) suggest that for cutaneous erysipelas this period should be at least 15 days from disappearance of typical lesions for cutaneous erysipelas, in order to guarantee a good level of safety of the meat and to reduce the hazard of occupational disease for veterinarians, abattoir workers and meat processors.

Control and Prevention of Erysipelas

pig snouts

Erysipelothrix rhusiopathiae, the bacteria that causes swine erysipelas, is present on all if not most pig farms. A monitoring system should be in place in order to detect any cases should they appear. 

Pigs, both carriers and acutely infected animals, are considered the main reservoir for Erysipelothrix rhusiopathiae in a herd. Soil or feces contamination or wildlife reservoir are considered insignificant as sources of infection (Wood and Henderson, 2013). The pathogen has the ability to persist in the environment for long periods and can survive marine conditions (Brooke and Riley, 1999).

Suckling piglets of an immune sow are usually resistant to the disease until the maternal immunity wanes. Similarly, older sows tend to be immune. There does not appear to be any genetic resistance to erysipelas. Other, concurrent infections, such as parasitic infestations or mycotoxins, or nutritional or environmental/climatic changes have all been suggested as predisposing factors for an erysipelas outbreak (Wood and Henderson, 2013), although  the main risk factor for an outbreak is the introduction of a new animal into the herd.

Swine Erysipelas Vaccines

Killed and inactivated vaccines are available and their use is advocated by some (Redhead et al., 1998; Wood and Henderson, 2013), while others express doubts about the efficacy of the vaccine (Chen et al., 1998). It is generally accepted that the vaccines do not have much or any effect on the development of chronic erysipelas arthritis, and it has been suggested that the vaccination actually enhances the development of chronic erysipelas arthritis (Wood and Henderson, 2013).

However vaccination is commonly used in the UK especially in the breeding herd. Examples are Porcilis Ery and Ery + Parvo, Eryseng Parvo (Hipra).  Autogenous vaccine is also an option if it can be proven that the commercial vaccinations are unsuitable for managing the on farm situation.  Erysipelas vaccination needs to be repeated every 4-6 months.  It is appropriate for sows and gilts throughout their lifetime.

Vaccines give a protective immunity for 4-6 months. If a vaccination program is used, gilts should be vaccinated on arrival in the unit and subsequently at every weaning. Vaccination can also be used for growing animals in a high challenge situation.

Sows often get vaccinated as they are moved into the farrowing area and there is a risk that boars get forgotten for booster vaccinations and can then become infertile following infection for 6 to 8 weeks (A.Bassett, pers.comm).

The use of ginseng (the dry extract prepared from the Panax ginseng C.A. Mayer-root) as a co- adjuvant has been shown to improve the antibody response of vaccination. Ginseng contains immunomodulators named ginsenosides, which in the pig enhance the antibody response to viral and bacterial antigens (Rivera et al., 2003).

Treating Erysipelas

Antibiotic therapy is effective if treated early enough. Erysipelothrix rhusiopathiae is very sensitive to penicillin (a narrow spectrum antibiotic) and this should be used early in an outbreak and under veterinary prescription. Long-acting penicillin is routinely used.

If an unvaccinated herd experiences several outbreaks, a vaccination program should be considered.

Erysipelas and Welfare

Affected animals should be diagnosed and treated as soon as possible with penicillin to avoid suffering and chronic infections.

Good Practice Based on Current Knowledge

As part of the overall health herd plan, the erysipelas situation on every farm should be assessed based on historic records/abattoir returns or by starting to collect this information. Based on the data, a policy to control erysipelas should be established and can follow one of the two scenarios:

    1. No vaccination
      If the farm chooses not to vaccinate, a monitoring system should be put in place to assess arthritis clinically and post mortem at the abattoir in order to detect chronic erysipelas arthritis if this appears. Routine blood sampling to check levels of immunity is also recommended.  A policy of immediate treatment with penicillin at the first sight of clinical condition should also be implemented.  If an unvaccinated farm experiences repeated outbreaks, a vaccination policy should be implemented
    2. Continuous vaccination
      If the farm chooses to vaccinate, all gilts should be vaccinated on arrival or when introduced to the acclimatization paddocks. The vaccination needs to be repeated at each weaning throughout the sow’s life. Many breeding companies vaccinate gilts prior to delivery, and therefore details of what vaccinations have been given should be sought. Ensure boars are also fully vaccinated.

 

Erisipelas References
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OUR SUSTAINABLE LIVESTOCK PRINCIPLES:

  • Livestock should be land-based and integrated with farm cropping enterprises
  • Animals should be provided with conditions that enable them to exhibit natural behaviors
  • Dependency on veterinary medicines should be reduced without jeopardizing the well-being of animals

OUR SUSTAINABLE LIVESTOCK PRACTICES:

outdoor access

Animals having outdoor access, shade, shelter, lighting and sufficient space for them to undertake free movement and to exhibit natural behaviors.

Breed

Using breeds and strains well-suited and adapted to the prevailing conditions.

Health Plan

Implementing herd and flock planning based on sound ecological practices and epidemiological knowledge.

biosecurity

Undertaking good practice with regard to biosecurity.

closed herds

Maintaining animals in closed herds and flocks and at stocking rates that enables free-movement, reduces risks of disease spread and minimizes environmental damage.

forage and grazing

Forage and grazing being the main source of nutrients for ruminants, and continuously available to non-ruminants.

production practices

Avoiding the use of mutilations as standard production practices.

Antibiotics

Improved understanding and responsible usage of veterinary medicines.