anthelmintic resistance

The P-glycoprotein inhibitor ketoconazole causes a reversion to sensitivity in ivermectin resistant cyathostomins in vitro

Citation

Laura Peachey, Jacqui. B. Matthews, Gina L. Pinchbeck, Faith A. Burden, Jane E. Hodgkinson. 6 February 2014. The P-glycoprotein inhibitor ketoconazole causes a reversion to sensitivity in ivermectin resistant cyathostomins in vitro. Presented at Anthelmintics: From Discovery to Resistance. (5 February - 7 February 2014). San Francisco, USA.

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Presentation details
Date presented: 
Thursday 6 February 2014
Abstract

Anthelmintic resistance is a growing problem in both the developed and developing world; of most concern is the level of resistance detected against the potent macrocylic lactone (ML) anthelmintics. To identify and target a common mechanism of resistance to anthelmintics would allow potential modification of existing drugs, and may even enable the prediction and prevention of the development of resistance to novel drugs. There is a growing body of evidence that P-glycoproteins (P-gps) are involved in resistance to the MLs in many parasitic nematodes of humans and veterinary species (Ardelli et al, 2011). P-gps belong to class two of the ATP binding cassette (ABC) transporter protein superfamily; they are responsible for the active removal of xenobiotic compounds from cells. The cyathostomins are gastrointestinal nematodes of equids that cause significant pathology. Recently resistance to MLs has been described in cyathostomins (Molento et al, 2008), its mechanisms have not yet been elucidated.

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Common helminth infections of donkeys and their control in temperate regions

Citation

Jacqui. B. Matthews, Faith A. Burden. March 2013. Common helminth infections of donkeys and their control in temperate regions. Equine Veterinary Education.

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Publication details
Publication date: 
18 March 2013
DOI number: 
doi: 10.1111/eve.12018
Abstract

Roundworms and flatworms that affect donkeys can cause disease. All common helminth parasites that affect horses also infect donkeys, so animals that co-graze can act as a source of infection for either species. Of the gastrointestinal nematodes, those belonging to the cyathostomin (small strongyle) group are the most problematic in UK donkeys. Most grazing animals are exposed to these parasites and some animals will be infected all of their lives. Control is threatened by anthelmintic resistance: resistance to all 3 available anthelmintic classes has now been recorded in UK donkeys. The lungworm, Dictyocaulus arnfieldi, is also problematical, particularly when donkeys co-graze with horses. Mature horses are not permissive hosts to the full life cycle of this parasite, but develop clinical signs on infection. In contrast, donkeys are permissive hosts without displaying overt clinical
signs and act as a source of infection to co-grazing horses. Donkeys are also susceptible to the fluke, Fasciola hepatica. This flatworm can be transmitted, via snails and the environment, from ruminants. As with cyathostomins, anthelmintic resistance is increasing in fluke populations in the UK. A number of the anthelmintic products available for horses do not have a licence for use in donkeys, and this complicates the design of parasite control programmes. As no new equine anthelmintic classes appear to be near market, it is important that the efficacy of currently effective drugs is maintained. It is important that strategies are used that attempt to preserve anthelmintic efficacy. These strategies should be based on the concept that the proportion of worms in a population not exposed to anthelmintic at each treatment act as a source of ‘refugia’. The latter is an important factor in the rate at which resistance develops. Thus, it is imperative that parasite control programmes take into account the need to balance therapy to control helminth-associated disease with the requirement to preserve anthelmintic effectiveness.

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