2014-10-20   facebooktwitterrss

Dutch Worm Resistance is a Warning for UK

SCOPS urges UK vets, advisers and farmers to heed its advice to integrate 4-AD and 5-SI wormer classes into the worm control programmes.

The SCOPS group is aware of a report of resistance to the 4-AD group of anthelmintics (monepantel) in the Netherlands in sheep nematodes. The full details are not yet available, but the group understands this situation has arisen because the farms have relied on the 4-AD product because they have resistance to all the other classes available to them.

Sheep Flock

© Farm Images

Detecting Anthelmintic Resistance

The presence of anthelmintic resistance can be detected in flocks in a number of ways. These vary in terms of their cost, complexity and robustness and are outlined below in terms of this hierarchy, starting with the cheapest and most simple, the Drench Test.

1. Post-dosing faecal egg counts ("Drench Tests")
A quick indication of the efficacy of an anthelmintic can be gauged by laboratory testing faecal samples from 10 sheep following after treatment. The time after treatment depends on the anthelmintic used: 7 days after 2-LV, 10-14 after 1- BZ and 14-16 days after a 3-ML. In practice, this means checking either 7 days for 2-LV, or 14 post treatment for 1-BZ and 3-ML products. The test is merely an indicator of anthelmintic inefficacy and not necessarily anthelmintic resistance per se, as many other factors can influence test results. The usefulness of this test is improved if faecal samples from 10 sheep in the dosed group are collected and submitted on the day of dosing, to provide a rough estimate of the reduction in FEC achieved (and to confirm there was a measurable epg before treatment).

2. Faecal Egg Count Reduction Tests (FECRT)
A more structured on-farm test can be conducted in which a number of different anthelmintics are tested against a control. Fifteen to twenty ** sheep are randomly allocated to control or treatment groups, (one for each class to be tested) and a pre-treatment FEC taken for each groups as the baseline. FECs are then repeated on at least 10 of the control sheep and the 2-LV group (if used) after 7 days, followed by FECs form the control sheep and the 1-BZ and 3-ML groups after 14 days. AR is suspected if the percentage reduction in FEC of a test group compared with the controls is < 95%. Results may differ according to whether arithmetic or geometric means are used in the calculations. Where necessary, the advice of an expert should be sought with interpretation of the results.

In a simplified version of the FECRT, pre-dose FECs are not performed, and results are just based on the percentage reduction in mean FEC in the treatment groups compared to the controls.

**NB. Sheep that have not been dosed within 30 days (or longer if MOX has been previously used), and a mean FEC of 200 epg or more is recommended before starting the trial.

3. Larval Development Tests (LDTs) and Egg Hatch Assays (EHAs)
A range of in-vitro tests has been developed to avoid the use of animals in testing for resistance. The two most commonly used are the egg hatch assay (EHA) for the 1-BZ anthelmintics, and the larval development test (LDT) for 1-BZ and 2-LV classes. There are currently no in-vitro tests yet available for 3-ML resistance. Farm visits are not necessarily required and the samples can be sent by post direct to the laboratory. However, currently these tests are relatively expensive, precluding their widespread use, Sensitivity is generally considered higher than with the FECRT so AR may be detected when the frequency of resistant alleles within the worm populations is still low. Interpretation is, however, not straightforward and requires expert input.

Although not reversible, the presence of AR is dynamic. Detection of AR on a farm will vary according to season, the worm species present at the time a test was applied and the test’s specificity and sensitivity in detecting resistant alleles within the worm populations. It is important, therefore, we do not assume we have full knowledge of the situation on an individual farm on the basis of one test. Tests should be repeated at intervals and as a part of the on-going monitoring with a health plan in flocks.

This comes as a timely warning to the UK, says Peter Baber, SCOPS Chairman and sheep farmer: “This is exactly the situation SCOPS predicted would occur if we do not integrate the new groups into worm control strategies before the older products become ineffective. There are still a large number of UK farms where one or more of the three older groups remain effective. If we carefully integrate the 4-AD and 5-SI products into worm control programmes now, it will extend the useful life of all groups. The Dutch example serves to illustrate the folly of us leaving them until they are the only option.”

Scops

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