Other names

Swine Flu, Flu, Influenza

Causal Agent

Swine Influenza Virus.  This belongs to the Influenza type A virus group.  In the USA H₁N₁, H₃N₂ and reassortant H₁N₂ are problematic. The US has also developed a novel H₁N₁ with avian internal genes. Currently common varieties within the UK are H₁N₁, H₁N₁ (_195852), H₃N₂ and H₁N_2. There are 16 H and 9 N types providing a lot of potential.   There are at least 7 different pig adapted influenza viruses. 

The genome is divided into 8 segments.

Age group

All ages can be affected

Clinical signs

Naive herds

Explosive outbreaks with all or many animals becoming ill at the same time.

Disease much more common in the Spring and Autumn

Animals present with inactivity, depression, huddling/pilling.  They are anorexic.  The animals often are mouth breathing and breathing is laboured.  When the animals are moved many cough, some uncontrollably (paroxysm coughing).  They often have a nasal discharge and the eyes are puffy.  Their rectal temperature increases to 40.5-41.5•C.  As the disease progresses loss of weight may be seen.  Mortality is generally low. 

The high rectal temperature in breeding stock can result in abortions, infertility (a boar can become sub-fertile for 6 weeks), production of small weak litters and increased stillbirths.

Recovery generally starts 5 to 7 days after the first clinical signs

Established Herds

Annual re-infection appears, possibly from carrier pigs or the natural spread to younger naive pigs who present few signs in the summer months.

Infectivity

The disease is much more predominant in the spring and autumn months, however antibody investigations reveal little seasonal trend implying pigs get sick during the summer months without presenting with many signs

Spread is mainly from pig to pig via the movement of animals, introduction of breeding stock

Cross-Infectivity between human, pig, duck and turkey strains can occur

Humans can transmit the disease to pigs and vice versa

Virus can survive in the environment for a very short period of time.

Stress factors

Moving pigs

Mixing pigs

Poor isolation facilities

Marked diurnal (day and night) temperature fluctuations

Overstocking

Incubation period

1 to 3 days.  Can be as short as 4 hours

Post-mortem Lesions

There may be few lesions seen in uncomplicated cases.  There may be firm lobular lesions with interlobular oedema.  Associated lymph nodes may be enlarged.  The trachea can be filled with froth.

The Swine Influenza causes problems because it damages the lining of the trachea destroying the mucociliary escalator.

In combination with pasteurella the gross appearance of the lung is extremely similar to Mycoplasma hyopneumoniae infections.

Diagnosis

Clinical signs

Use of histology from fresh lungs and stained with antibody stains

For example, the picture shows the microscope view, the brown areas represent swine influenza

Paired blood samples checked for antibody concentrations (21 days apart), note maternal antibodies may persist for 2-4 months

Treatment

During outbreak

Cover all services with AI from a third party source

No specific treatments available, all treatment regimes supportive

Careful nursing in the farrowing house essential.  Must ensure the farrowing house is draught free.

All-in/All-out will limit the spread of the disease

Provide fresh clean drinking water

Control

Avoid ducks and turkey contamination's contact including staff

Use disinfectants when cleaning buildings

Vaccines

Common differentials

Enzootic pneumonia.  Other causes of reproductive problems.  PRRSv

Zoonotic implications

Swine Influenza may rarely affect human beings

Basic make up of the Influenza Virus

Swine influenza belong to the family – Orthomyxoviridae group A. The geneome is segmented into 8 negatively sensed RNA pieces.  The virus is enveloped.

The picture shows an electronmicroscope picture of an influenza virus and a pig with swine influenza

There are two major surface antigens –

H – There are 15 possibilities

N -  There are 9 possibilities

Major species with influenza viruses: Bird (most species) Mammals – Man, Horse, Pig.

Swine Influenza can change by two major methods:

Genetic Drift

Here parts of the genetic code changes with replication errors.  This is typical of an RNA virus

Genetic Shift

Here recombination of different viruses occupying the same cell at the same time – make a new type of virus.

Examples:

Current Swine Influenza viruses of importance are H₁N₁, H₃N₂, H₁N₂ . There are some 7 different major types of Swine Influenza virus recognised. Note that there are differences between European and American strains, even with the same type of H or N they may originate from difference species ie avian or mammal.