Liver fluke disease is a well-known parasitic infection of cattle and sheep which can cause serious production losses in these animals.

It is estimated that liver fluke disease costs Irish farmers up to €90 million annually in lost production.  

Let us consider the effects in sheep – this parasite causes considerable damage in all animals resulting in reduced weight gains of up to 30%, reduced fertility both in terms of conception and lambing rates, reduced wool growth and diminished wool quality and finally deaths as mentioned above. 

While the latter may be more important to the individual farmer concerned, overall, the losses caused by the other effects are probably greater.

Furthermore, these insidious losses caused by non-fatal infections are also ensuring that the pastures are re-contaminated with fluke eggs, thereby ensuring future infestations.

A similar situation exists in cattle though in this species, infection is rarely fatal.

In beef cattle, the main effect is a reduction in weight gain, which can be as high as 20%. The problem is, that the animal may still gain weight but less efficiently than should be the case.

The damage to the liver is also an economic cost, but as the farmer rarely sees this or may not be aware of the loss, there may be no inducement to do anything about it.

In dairy cows, the damage is more extensive, with reductions in milk yield of up to 8% and impaired fertility, resulting in longer inter-calving intervals or even sterility for the year.

However, while individual animals (sheep or cattle) require treatment to control infection, the most important reason for treatment in the long term is the control to reduce pasture infection so as to reduce exposure to the disease in the future.

Controlling fluke

It is important for farmers to know what product, and more importantly what active, they are using – as well as which stages of fluke it controls. 

Rafoxanide has been widely used for many years throughout the world for the control of liver fluke. This active has been in general use since the 1970s and has been shown to be an effective and safe flukicide for general use – a claim which is extensively supported in the literature. 

Rafoxanide is one of the salicylanilides which have activity against the liver fluke (Fasciola hepatica). Rafoxanide is highly effective against adult and immature fluke from six to eight weeks of age with action against fluke as young as four weeks. 

In addition, it has an excellent safety record and no evidence of resistance in fluke has been demonstrated.

However, it must also be stated that there is no single broad solution. It depends on a number of factors, the animals (sheep or cattle), the preceding weather, type of land and farming practices.

For example, wet versus dry weather, wet or poor draining soil versus dry free draining soil and whether animals are out wintered or housed. It should be noted that animals do not develop good immunity to liver fluke so ongoing treatment is necessary.

Liver fluke life cycle

For effective control, it is vital to be familiar with the basic life cycle of the parasite and to determine the weak links in the chain of events.

Liver fluke eggs are passed in the dung to pasture where they develop, infect the common mud snail (Lymnaea Truncatula) multiply and re-immerge and infest the pasture.

When the grass is eaten, the young attached flukes penetrate the gut and make their way to the liver where they become adults and start laying eggs to restart the life cycle again.

Life cycle summary:

  • Larvae are ingested on contaminated grass in typically wet areas mostly during late summer to winter. Liver fluke infection occurs in all parts of Ireland but is more prevalent in the west and in years when there is high summer rainfall;
  • Once ingested the larvae penetrate the intestine wall and move to the liver. They travel through the liver for eight to 12 weeks causing significant damage;
  • Immature fluke then reach the bile ducts where they mature into adults. If left untreated, flukes can live for months to years. They feed on blood and produce thousands of eggs which are passed back onto pasture;
  • The eggs develop to a small larvae stage. They then must find and penetrate its intermediary host (the mud snail) which is more commonly found in wet areas. They develop through various larvae stages before leaving the snail;
  • Each infected snail can release up to 600 larval flukes back onto pasture from one fluke.

As you can see, there are two multiplicative stages in the life cycle; the first is in sheep and cattle when the eggs are produced, the second is in the snail host. The best way for effective control is to target and reduce these multiplying stages.   

Infected animals at pasture, irrespective of the time of year, will pass out eggs which if they fall on wet ground where the snails are present will continue the cycle.

Control should therefore be directed at minimising the number of eggs reaching the pasture, thus reducing the chance of infecting the snails and also to reduce the presence of the snails on the pasture.

In Ireland, particularly in the west where rainfall tends to be higher, fluke eggs can infect snails and give rise to pasture infection any time throughout the year.

It is therefore important to minimise the output of eggs through all seasons. In the drier parts of the country, eggs shed during summer are more likely to fail in their development unless they are shed into wet muddy sites.

Lymnea snail

On the basis of the epidemiology of the disease and taking into account the environment and species, the following can be used for effective liver fluke control for sheep and cattle.

Actions to take on farms

Your anthelmintic control programme should be decided in consultation with your veterinary surgeon.

However, there are some things that farmers can do:

  • Improve drainage or fence off wet areas. Avoid poaching or grazing wet areas especially when fluke can be ingested, typically late summer to winter;
  • Dose bought in animals with appropriate flukicide before letting out to pasture;
  • It is recommended to dose in late spring / early to mid-summer to reduce the number of eggs on the pasture and thus reducing the number of snails becoming infected;
  • Fluke burdens can be monitored by using faecal egg counts, bulk milk tank samples and information from meat factories regarding infected livers;
  • In winter, dose animals at housing, 4-6 weeks after housing or both depending on type of flukicide used. It is recommended to use a flukicide like rafoxanide which also controls immature fluke at this time;
  • Rotation of anthelmintics is highly recommended to avoid the build-up of resistance. The emergence of resistant strains of fluke to Triclabendazole has been reported in Ireland. No known resistance has been reported to the use of Rafoxanide;
  • Estimate the weight of your animals accurately or weigh if possible. Avoid under-dosing to help prevent resistance. There is nothing to be gained by over-dosing;
  • Dosing should only be undertaken if the animal will not be going to slaughter after the withdrawal period, 60 days for rafoxanide. Make sure to check withdrawal periods carefully as there has been an increase in the withdrawal of some products;
  • Rafoxanide based products cannot be given to dairy animals producing milk for human consumption including during the dry period.
Reported Efficacies against F. hepatica4-week-old immature fluke6-week-old immature flukeAdult liver fluke
Rafoxanide45-98%87-99%99-100%
Irish Veterinary Journal, Vol 13, No. 9, Sept 2013 p474-481)

Curafluke (Rafoxanide 10% / Fenbendazole 10%) is a low volume fluke and worm drench which controls all major worms including Lungworms, Stomach worms (incl. Ostertagia Type II and Nematodirus) and Mature and Immature Liver Fluke in cattle and sheep.

Other Univet products containing Rafoxanide include Ranide (Rafoxanide) and Univet Multidose (Levamisole, Rafoxanide).

Further information on Curafluke and other anthelmintic products from Univet can be found by clicking here.