Small strongyle infection: consequences of larvicidal treatment of horses with fenbendazole and moxidectin.
Abstract: The study was undertaken to evaluate adverse effects of larvicidal treatment in horses naturally infected with cyathostomins. Out of 24 ponies kept on pasture, four animals were housed in September and anthelmintically cured to serve as worm-free controls (group C-0). The others were housed in December. Eight animals each were treated 8 weeks later with 5 x 7.5mg/kg fenbendazole (FBZ) or 1 x 0.4 mg/kg moxidectin (MOX). Four animals remained untreated (group C-i). Two, 4, 6 and 14 days after the end of treatment two animals of each of the treated groups were necropsied together with group C-0 and C-i animals. Infected animals before treatment showed weight loss, eosinophilia, increased plasma protein and globulin contents. Treatment was followed by weight gain and temporal plasma protein and globulin increase. Proportions of CD4+ and CD8+ T lymphocytes in the peripheral blood did not differ between the groups before treatment but dropped significantly temporally after FBZ treatment. Group C-0 was worm-free at necropsy. Group C-i animals contained variable numbers of luminal and tissue cyathostomins. Histological sections showed larval stages in the lamina propria und submucosa surrounded by macrophages. Either treatment was effective against luminal parasites and reduced the number of larvae in the bowel wall beginning 4-6 days after FBZ and 6-14 days after MOX treatment. Histologically, as a first reaction after FBZ application T lymphocytes accumulated around morphologically intact L4 in the submucosa. Subsequently T lymphocytes associated with eosinophils infiltrated the submucosa. Parasites became enclosed by granulomas with eosinophils adhering to and invading the larvae which started to disintegrate on day 4. Later on, particularly on day 14 inflammation extended into the mucosa and was frequently associated with ulcerations. Third stage larvae in general and L4 in the lamina propria, however, seemed not to be affected until day 14 and even then, parasites did usually not generate extensive inflammation. After MOX treatment severe morphologically detectable alterations of tissue larvae could not be observed earlier than day 14. Different from FBZ treatment, larvae disintegrated and were obviously resorbed without causing severe inflammation in the gut wall. In conclusion treatment with either drug was efficacious against tissue larvae of cyathostomins but there may be different clinical consequences: in contrast to MOX effects, killing of larvae due to FBZ was associated with severe tissue damage, which clinically may correspond to reactions caused by synchronous mass emergence of fourth stage larvae, i.e., may mimic larval cyathostominosis.
Publication Date: 2006-05-03 PubMed ID: 16675126DOI: 10.1016/j.vetpar.2006.03.028Google Scholar: Lookup
The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
- Comparative Study
- Journal Article
Summary
This research summary has been generated with artificial intelligence and may contain errors and omissions. Refer to the original study to confirm details provided. Submit correction.
This research evaluates the effects of larvicidal treatment on horses infected with a specific parasite, cyathostomins. It found that while both treatments have been effective, one type of treatment (fenbendazole) could cause more tissue damage than the other (moxidectin).
Objective of the Study
- The goal of this study was to investigate the potential adverse effects of larvicidal treatments on horses naturally infected with cyathostomins, a type of parasitic worm.
Methodology
- The study involved 24 ponies, four of which were treated to become worm-free and serve as controls.
- The remaining horses were housed later and treated with either fenbendazole (FBZ) or moxidectin (MOX) 8 weeks after they were housed.
- Four animals left untreated were used for comparison.
- The health progression of all animals were monitored closely, with attention to weight fluctutation, eosinophilia, and plasma protein and globulin contents.
- Subsets from each group were also necropsied at different time intervals after the treatment to examine the effect on the parasites (cyathostomins).
Discoveries
- Prior to treatment, infected animals showed weight loss and increased plasma protein and globulin contents, among other symptoms.
- Post treatment, there was a marked improvement in the health of the treated animals, illustrated by weight gain and a temporary increase in plasma protein and globulin.
- The change levels of T lymphocytes after treatment varied significantly between FBZ and MOX treatment.
- On examination post necropsy, the control group (C-0) had no worms and the untreated group (C-i) had variable numbers of cyathostomins.
Effects of FBZ and MOX Treatment on Cyathostomins
- Both treatments were found to be effective against the cyathostomins, reducing the number of larvae in the bowel wall.
- After FBZ treatment, T lymphocytes amassed around intact stage 4 larvae, followed by eosinophils invading the submucosa, marking the disintegration of parasites from day 4 of treatment.
- Conversely, after MOX treatment, severe morphologically detectable alterations of tissue larvae were not observed until the 14th day. MOX treated larvae disintegrated and were absorbed without causing severe inflammation in the gut wall.
Conclusion
- The study found that while both fenbendazole and moxidectin were effective against cyathostomin larvae, fenbendazole treatment resulted in severe tissue damage, making its side effects more akin to an infection itself.
Cite This Article
APA
Steinbach T, Bauer C, Sasse H, Baumgärtner W, Rey-Moreno C, Hermosilla C, Damriyasa IM, Zahner H.
(2006).
Small strongyle infection: consequences of larvicidal treatment of horses with fenbendazole and moxidectin.
Vet Parasitol, 139(1-3), 115-131.
https://doi.org/10.1016/j.vetpar.2006.03.028 Publication
Researcher Affiliations
- Institute of Parasitology, Justus Liebig University Giessen, Rudolf-Buchheim-Strasse 2, D-35392 Giessen, Germany.
MeSH Terms
- Animals
- Anthelmintics / adverse effects
- Anthelmintics / therapeutic use
- Body Weight / drug effects
- CD4-CD8 Ratio / veterinary
- Female
- Fenbendazole / adverse effects
- Fenbendazole / therapeutic use
- Horses
- Intestinal Mucosa / parasitology
- Intestinal Mucosa / pathology
- Larva
- Macrolides / adverse effects
- Macrolides / therapeutic use
- Male
- Random Allocation
- Strongyle Infections, Equine / drug therapy
- Strongyle Infections, Equine / immunology
- Strongyle Infections, Equine / parasitology
- Strongyle Infections, Equine / pathology
- Strongylus / drug effects
- Strongylus / growth & development
- Time Factors
- Treatment Outcome
Citations
This article has been cited 9 times.Use Nutrition Calculator
Check if your horse's diet meets their nutrition requirements with our easy-to-use tool Check your horse's diet with our easy-to-use tool
Talk to a Nutritionist
Discuss your horse's feeding plan with our experts over a free phone consultation Discuss your horse's diet over a phone consultation
Submit Diet Evaluation
Get a customized feeding plan for your horse formulated by our equine nutritionists Get a custom feeding plan formulated by our nutritionists
