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Burcáková L, Königová A, Kuzmina TA, Austin CJ, Matthews JB, Lightbody KL, Peczak NA, Syrota Y, Várady M. Equine tapeworm (Anoplocephala spp.) infection: evaluation of saliva- and serum-based antibody detection methods and risk factor analysis in Slovak horse populations. Parasitol Res 2023; 122:3037-3052. [PMID: 37803152 PMCID: PMC10667452 DOI: 10.1007/s00436-023-07994-1] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/09/2023] [Accepted: 09/26/2023] [Indexed: 10/08/2023]
Abstract
A lack of accurate information on the prevalence and distribution of Anoplocephala spp. infections on horse farms has led to insufficient attention to tapeworm control and increasing horse anoplocephaloses in Europe. Our study aimed to examine the occurrence of Anoplocephala spp. infection using coprological, serum- and saliva-based antibody detection methods and to analyze the risk factors associated with tapeworm infection in domestic horses in Slovakia. Fecal, serum, and saliva samples were collected from 427 horses from 31 farms in Slovakia. Additionally, a questionnaire study was conducted to collect information on tapeworm distribution on horse farms and analyze risk factors associated with infection. Fecal samples were examined by the mini-FLOTAC and the double centrifugation/combined sedimentation-flotation techniques. Serum and saliva samples were analyzed by ELISA to determine antibody levels against Anoplocephala spp. The effects of variables associated with an individual horse were tested for the positive result of the saliva ELISA test on Anoplocephala spp. Cestode eggs were detected in 1.99% of fecal samples (farm prevalence 12.90%), with no differences between the two coprological methods. Serum-based tapeworm ELISA results revealed that 39.39% of horses tested positive (farm prevalence 83.87%); while saliva-based tapeworm ELISA results revealed 56.95% positive horses (farm prevalence 96.77%). Binary logistic regression analysis revealed four meaningful predictors that significantly impacted the likelihood of detecting tapeworm infection in horses: horse age, pasture size, anthelmintic treatment scheme, and access to pasture. The influences of other variables associated with an individual horse were not significantly associated with detecting tapeworm infection.
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Affiliation(s)
- Ludmila Burcáková
- Institute of Parasitology, Slovak Academy of Sciences, Hlinkova 3, Kosice, 04001, Slovakia
- University of Veterinary Medicine and Pharmacy in Kosice, Komenskeho 73, Kosice, 04181, Slovakia
| | - Alzbeta Königová
- Institute of Parasitology, Slovak Academy of Sciences, Hlinkova 3, Kosice, 04001, Slovakia
| | - Tetiana A Kuzmina
- Institute of Parasitology, Slovak Academy of Sciences, Hlinkova 3, Kosice, 04001, Slovakia.
- I. I. Schmalhausen Institute of Zoology NAS of Ukraine, Bogdan Khmelnytsky Street, 15, Kyiv, 01054, Ukraine.
| | - Corrine J Austin
- Austin Davis Biologics Ltd, Unit 1 Denfield Lodge, Lower Street, Great Addington, Northants, NN14 4BL, UK
| | - Jacqueline B Matthews
- Austin Davis Biologics Ltd, Unit 1 Denfield Lodge, Lower Street, Great Addington, Northants, NN14 4BL, UK
| | - Kirsty L Lightbody
- Austin Davis Biologics Ltd, Unit 1 Denfield Lodge, Lower Street, Great Addington, Northants, NN14 4BL, UK
| | - Natalia A Peczak
- Austin Davis Biologics Ltd, Unit 1 Denfield Lodge, Lower Street, Great Addington, Northants, NN14 4BL, UK
| | - Yaroslav Syrota
- Institute of Parasitology, Slovak Academy of Sciences, Hlinkova 3, Kosice, 04001, Slovakia
- I. I. Schmalhausen Institute of Zoology NAS of Ukraine, Bogdan Khmelnytsky Street, 15, Kyiv, 01054, Ukraine
- African Amphibian Conservation Research Group, Unit for Environmental Sciences and Management, North-West University, Potchefstroom, South Africa
| | - Marian Várady
- Institute of Parasitology, Slovak Academy of Sciences, Hlinkova 3, Kosice, 04001, Slovakia
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Matthews JB, Peczak N, Lightbody KL. The Use of Innovative Diagnostics to Inform Sustainable Control of Equine Helminth Infections. Pathogens 2023; 12:1233. [PMID: 37887749 PMCID: PMC10610145 DOI: 10.3390/pathogens12101233] [Citation(s) in RCA: 1] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/13/2023] [Revised: 10/06/2023] [Accepted: 10/10/2023] [Indexed: 10/28/2023] Open
Abstract
Helminths are commonly found in grazing equids, with cyathostomin nematodes and the cestode Anoplocephala perfoliata being the most prevalent. Most horses harbour low burdens of these parasites and do not develop signs of infection; however, in a small number of animals, high burdens can accumulate and cause disease. Cyathostomins are associated with a syndrome known as larval cyathostominosis. This occurs when large numbers of larvae emerge from the large intestinal wall. This disease has a case fatality rate of up to 50%. A. perfoliata infection has been associated with various types of colic, with burdens of >20 worms associated with pathogenicity. Anthelmintic resistance is a serious problem in cyathostomins and is emerging in A. perfoliata. Control methods that reduce reliance on anthelmintics now need to be applied, especially as no new dewormer compounds are on the horizon. Sustainable control methods must employ diagnostics to identify horses that require treatment. Coprological tests (faecal egg counts, FECs) have been used for several decades to inform treatment decisions to reduce helminth egg shedding. These tests cannot be used to assess host burdens as FECs do not correlate with cyathostomin or A. perfoliata burdens. In the last decade, new tests have become available that measure parasite-specific antibodies, the levels of which have been shown to correlate with parasite burden. These tests measure antigen-specific IgG(T) and are available in serum (cyathostomin, A. perfoliata) or saliva (A. perfoliata) formats. Tests for other helminths have been developed as research tools and need to be translated to support equine clinicians in practice. A key element of sustainable control strategies is that diagnostics must be used in combination with management approaches to reduce environmental transmission of helminths; this will help limit the proportion of horses harbouring parasite burdens that need to be targeted by treatment. This manuscript provides a review of the development, performance and general utility of various diagnostic methods for informing equine helminth management decisions.
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Flores AG, Osmari V, Ramos F, Marques CB, Ramos DJ, Botton SDA, Vogel FSF, Sangioni LA. Multiple resistance in equine cyathostomins: a case study from military establishments in Rio Grande do Sul, Brazil. ACTA ACUST UNITED AC 2020; 29:e003820. [PMID: 33027421 DOI: 10.1590/s1984-29612020086] [Citation(s) in RCA: 4] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/03/2020] [Accepted: 08/18/2020] [Indexed: 11/22/2022]
Abstract
Semi-intensive equine breeding system favors gastrointestinal nematode infections. The treatment of these infections is based on the use of anthelmintics. However, the inappropriate use of these drugs has led to parasitic resistance to the available active principles. The objective of this study was to evaluate the efficacy of the main classes of antiparasitic (ATP) used in control in adult and young animals, including: benzimidazoles (fenbendazole), pyrimidines (pyrantel pamoate), macrocyclic lactones (ivermectin and moxidectin), as well as the combination of active ingredients (ivermectin + pyrantel pamoate). The study was carried out in two military establishments, located in Rio Grande do Sul (RS), from January to December, 2018. The intervals between the treatments of the animals were performed from 30 to 90 days. Coproparasitological evaluations were determined by the egg count reduction in the faeces. Cyatostomine larvae were identified in pre and post-treatment cultures. The results demonstrated the multiple parasitic resistance of cyathostomins to fenbendazole, moxidectin in young animals, and to fenbendazole, pyrantel pamoate in adult animals. Thus, it is necessary to define or diagnose parasitic resistance to assist in the creation of prophylactic parasitic control, using suppressive treatment with ATP associated with integrated alternatives. The progress of parasitic resistance can be slowed.
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Affiliation(s)
- Alexandra Geyer Flores
- Departamento de Medicina Veterinária Preventiva - DMVP, Centro de Ciências Rurais - CCR, Universidade Federal de Santa Maria - UFSM, Santa Maria, RS, Brasil
| | - Vanessa Osmari
- Departamento de Medicina Veterinária Preventiva - DMVP, Centro de Ciências Rurais - CCR, Universidade Federal de Santa Maria - UFSM, Santa Maria, RS, Brasil
| | - Fernanda Ramos
- Departamento de Medicina Veterinária Preventiva - DMVP, Centro de Ciências Rurais - CCR, Universidade Federal de Santa Maria - UFSM, Santa Maria, RS, Brasil
| | - Camila Balconi Marques
- Departamento de Medicina Veterinária Preventiva - DMVP, Centro de Ciências Rurais - CCR, Universidade Federal de Santa Maria - UFSM, Santa Maria, RS, Brasil
| | - Denise Jaques Ramos
- Departamento de Medicina Veterinária Preventiva - DMVP, Centro de Ciências Rurais - CCR, Universidade Federal de Santa Maria - UFSM, Santa Maria, RS, Brasil
| | - Sônia de Avila Botton
- Departamento de Medicina Veterinária Preventiva - DMVP, Centro de Ciências Rurais - CCR, Universidade Federal de Santa Maria - UFSM, Santa Maria, RS, Brasil
| | - Fernanda Silveira Flores Vogel
- Departamento de Medicina Veterinária Preventiva - DMVP, Centro de Ciências Rurais - CCR, Universidade Federal de Santa Maria - UFSM, Santa Maria, RS, Brasil
| | - Luís Antônio Sangioni
- Departamento de Medicina Veterinária Preventiva - DMVP, Centro de Ciências Rurais - CCR, Universidade Federal de Santa Maria - UFSM, Santa Maria, RS, Brasil.,Laboratório de Doenças Parasitárias, Departamento de Medicina Veterinária Preventiva, Centro de Ciências Rurais, Universidade Federal de Santa Maria - UFSM, Santa Maria, RS, Brasil
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Colic Prevention to Avoid Colic Surgery: A Surgeon's Perspective. J Equine Vet Sci 2019; 76:1-5. [PMID: 31084747 DOI: 10.1016/j.jevs.2019.02.023] [Citation(s) in RCA: 6] [Impact Index Per Article: 1.2] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/10/2019] [Revised: 02/26/2019] [Accepted: 02/26/2019] [Indexed: 11/20/2022]
Abstract
Management factors associated with colic, particularly related to stall confinement and nutrition, have been linked to alterations in gastrointestinal mucosal transport, motility, and microbiome, which in turn creates conditions that induce colic. In particular, meal feeding creates large changes in water movement in and out of the colon and alters the microbiome. These conditions may in turn result in colic conditions such as large colon impaction or large colon volvulus. In addition, a range of management and nutritional factors have been found to place horses at risk of select colic conditions such as ileal impaction. Other specific colic conditions, such as strangulating lipomas, may be related to fat metabolism in geldings and ponies, although the association with nutrition and the endocrine system are less well defined. It has long been understood that parasites are associated with colic, and with the advent of highly effective anthelmintics, parasite-induced colic has been markedly reduced. Nonetheless, equine mangers and veterinarians have to be aware of changes in parasite resistance or patterns of activity, such as the resurgence of large strongyles with surveillance-based management of parasites. Overall, understanding management risk factors can lead to recommendations that prevent colic in horses. Additional study of these factors may ultimately lead to reductions in the prevalence of colic by suggesting optimal management practices.
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Lyons ET, Bolin DC, Bryant UK, Cassone LM, Jackson CB, Janes JG, Kennedy LA, Loynachan AT, Boll KR, Burkhardt AS, Langlois EL, Minnis SM, Welsh SC, Scare JA. Postmortem examination (2016-2017) of weanling and older horses for the presence of select species of endoparasites: Gasterophilus spp., Anoplocephala spp. and Strongylus spp. in specific anatomical sites. VETERINARY PARASITOLOGY- REGIONAL STUDIES AND REPORTS 2018; 13:98-104. [PMID: 31014896 DOI: 10.1016/j.vprsr.2018.01.004] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.2] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Received: 07/25/2017] [Revised: 10/27/2017] [Accepted: 01/11/2018] [Indexed: 11/29/2022]
Abstract
Parasite infections are more quantifiable postmortem than antemortem in horses. Thus a study was carried out examining dead horses for specific parasite species. Most of the weanling and older horses submitted to the University of Kentucky Veterinary Diagnostic Laboratory (UKVDL) for postmortem examination between November 22, 2016 and March 23, 2017 were examined for certain species of internal parasites. The stomach and duodenum from 69 horses were examined for bots (Gasterophilus spp.). Combined data for both Thoroughbred and non-Thoroughbred (16 other than Thoroughbred breeds/mixed breeds) horses revealed that the prevalence of Gasterophilus intestinalis was 19% (n=12) with 2nd instars (x̄ 8.5) and 39% (n=27) with 3rd instars (x̄ 90). The prevalence of Gasterophilus nasalis was 1.5% (n=1) for 2nd instars (x̄ 1) and 7% (n=5) for 3rd instars (x̄ 25). A few third instar G. intestinalis placed in 10% formalin showed slight movement at over two hundred hours later. The cecum and about 25cm of the terminal part of the ileum were examined from 139 horses for tapeworms (Anoplocephala spp.) and large strongyles (Strongylus spp.). The prevalence of A. perfoliata was 44% (n=62) and the average number of specimens per infected horse was 92.5. Strongylus vulgaris and Strongylus edentatus were not found in the gut of any horse.
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Affiliation(s)
- E T Lyons
- Department of Veterinary Science, University of Kentucky, Gluck Equine Research Center, Lexington, KY 40546, United States.
| | - D C Bolin
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - U K Bryant
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - L M Cassone
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - C B Jackson
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - J G Janes
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - L A Kennedy
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - A T Loynachan
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - K R Boll
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - A S Burkhardt
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - E L Langlois
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - S M Minnis
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - S C Welsh
- Department of Veterinary Science, University of Kentucky, Veterinary Diagnostic Laboratory, Lexington, KY 40511, United States
| | - J A Scare
- Department of Veterinary Science, University of Kentucky, Gluck Equine Research Center, Lexington, KY 40546, United States
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Tzelos T, Matthews J. Anthelmintic resistance in equine helminths and mitigating its effects. IN PRACTICE 2016. [DOI: 10.1136/inp.i5287] [Citation(s) in RCA: 9] [Impact Index Per Article: 1.1] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/03/2022]
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Development of a recombinant protein-based ELISA for diagnosis of larval cyathostomin infection. Parasitology 2016; 143:1055-66. [DOI: 10.1017/s0031182016000627] [Citation(s) in RCA: 10] [Impact Index Per Article: 1.3] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/06/2022]
Abstract
SUMMARYCyathostomins are ubiquitous nematodes of horses. Once ingested, they can spend a substantial time as encysted larvae in the intestinal wall. The larvae can comprise up to 90% of the total burden, with up to several million worms reported in individuals. These stages can emerge in large numbers to cause life-threatening colitis. Direct methods for detection of encysted larval burdens in live horses do not exist. Previously, two antigen complexes were identified as promising markers for infection. A component of these, cyathostomin gut associated larval antigen-1 (Cy-GALA-1), was identified following immunoscreening of a complementary DNA library. Serum immunoglobulin G(T) (IgG(T)) responses to Cy-GALA-1 were shown to inform on larval infection. Sequence analysis of polymerase chain reaction products amplified from individual worms indicated that Cy-GALA-1 was derived from Cyathostomum pateratum. As cyathostomin infections always comprise multiple species, a diagnostic test must account for this. Here, segments of the Cy-gala gene were isolated from four common species, Cyathostomum catinatum, Cylicocyclus ashworthi, Cylicostephanus goldi and Cylicostephanus longibursatus, and the associated proteins expressed in recombinant form. The specificity and immunogenicity of each protein was confirmed. Each protein was assessed by enzyme linked immuno sorbent assay (ELISA) for its ability for informing on the presence of encysted larval infection and the level of burden.
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Getachew AM, Innocent G, Proudman CJ, Trawford A, Feseha G, Reid SWJ, Faith B, Love S. Field efficacy of praziquantel oral paste against naturally acquired equine cestodes in Ethiopia. Parasitol Res 2012; 112:141-6. [DOI: 10.1007/s00436-012-3117-1] [Citation(s) in RCA: 2] [Impact Index Per Article: 0.2] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/11/2012] [Accepted: 09/05/2012] [Indexed: 11/29/2022]
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Francisco I, Sánchez JA, Cortiñas FJ, Francisco R, Suárez J, Cazapal C, Suárez JL, Arias MS, Morrondo P, Sánchez-Andrade R, Paz-Silva A. Efficacy of Ivermectin Pour-on Against Nematodes Infecting Foals on Pasture: Coprological and Biochemical Analysis. J Equine Vet Sci 2011. [DOI: 10.1016/j.jevs.2011.01.012] [Citation(s) in RCA: 5] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/29/2022]
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Identification and characterisation of an immunodiagnostic marker for cyathostomin developing stage larvae. Int J Parasitol 2010; 40:265-75. [PMID: 19703459 DOI: 10.1016/j.ijpara.2009.08.004] [Citation(s) in RCA: 23] [Impact Index Per Article: 1.6] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/04/2009] [Revised: 07/31/2009] [Accepted: 08/03/2009] [Indexed: 11/22/2022]
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Clinical trial of efficacy of ivermectin pour-on against gastrointestinal parasitic nematodes in silvopasturing horses. Equine Vet J 2010; 41:713-5. [DOI: 10.2746/042516409x447275] [Citation(s) in RCA: 6] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/19/2022]
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Anthelmintic efficacies of a tablet formula of ivermectin–praziquantel on horses experimentally infected with three Strongylus species. Parasitol Res 2009; 105:817-23. [DOI: 10.1007/s00436-009-1460-7] [Citation(s) in RCA: 5] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/12/2009] [Accepted: 04/24/2009] [Indexed: 10/20/2022]
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Abbott JB, Mellor DJ, Barrett EJ, Proudman CJ, Love S. Serological changes observed in horses infected with Anoplocephala perfoliata
after treatment with praziquantel and natural reinfection. Vet Rec 2008; 162:50-3. [DOI: 10.1136/vr.162.2.50] [Citation(s) in RCA: 19] [Impact Index Per Article: 1.2] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/04/2022]
Affiliation(s)
- J. B. Abbott
- Division of Companion Animal Sciences; Institute of Comparative Medicine; Faculty of Veterinary Medicine; University of Glasgow Veterinary School; Bearsden Road Glasgow G61 1QH
| | - D. J. Mellor
- Division of Animal Production and Public Health; Institute of Comparative Medicine; Faculty of Veterinary Medicine; University of Glasgow Veterinary School; Bearsden Road Glasgow G61 1QH
| | - E. J. Barrett
- Virbac Ltd; Woolpit Business Park, Windmill Avenue Bury St Edmunds Suffolk IP30 9UP
| | - C. J. Proudman
- Philip Leverhulme Equine Hospital; Faculty of Veterinary Science; Leahurst Neston CH64 7TE
| | - S. Love
- Division of Companion Animal Sciences; Institute of Comparative Medicine; Faculty of Veterinary Medicine; University of Glasgow Veterinary School; Bearsden Road Glasgow G61 1QH
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Slocombe JOD, Heine J, Barutzki D, Slacek B. Clinical trials of efficacy of praziquantel horse paste 9% against tapeworms and its safety in horses. Vet Parasitol 2006; 144:366-70. [PMID: 17101225 DOI: 10.1016/j.vetpar.2006.09.038] [Citation(s) in RCA: 16] [Impact Index Per Article: 0.9] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/10/2006] [Revised: 09/25/2006] [Accepted: 09/29/2006] [Indexed: 12/01/2022]
Abstract
The aim of this study with horses and a few ponies naturally infected with tapeworms was to confirm in clinical trials the efficacy and safety of a praziquantel horse paste 9%. The field trials were conducted in 1997 and 1998 in Canada, France, Germany and New Zealand. A secondary aim of the study in Canada was to determine if a 24h post-treatment fecal sample provides the best estimate of the prevalence of tapeworms in horses when using a fecal examination technique. Fecal samples were taken from each of 1062 animals at least three times pre-treatment (PRT). In Canada, fecal samples were examined using the Cornell-Wisconsin centrifugal flotation technique, and in France, Germany and New Zealand using a centrifugation/flotation technique. In each trial, the animals were randomized into two treatment groups: praziquantel horse paste 9% at 1mg/kg body weight (BW) and untreated. Fecal samples were taken from each animal nine times post-treatment and over a period of 5 weeks. In Canada, a fecal sample was taken also at 24h after treatment. Personnel examining the samples were "blinded" to treatment groups. On the day of treatment, each treated animal was examined for adverse reactions to the paste 10min after treatment and then hourly for 4h. Thereafter, each animal was examined once daily for 5 weeks. In Canada, Germany and New Zealand, the only tapeworm egg found was Anoplocephala perfoliata. In France, A. perfoliata was the most common species and a few animals had A. magna and Paranoplocephala mamillana. The prevalence of A. perfoliata among animals sampled in Canada, France, Germany and New Zealand was 51.8, 34.4, 13.1 and 26.2%, respectively. A total of 248 animals were treated with the praziquantel paste and all except one accepted it readily. There were 292 animals completing the study, 219 treated and 73 untreated. In Canada, Germany and New Zealand, the efficacy of the praziquantel horse paste 9% against A. perfoliata was 100%. In France, the efficacy against A. perfoliata, A. magna and P. mamillana was 90.9, 100 and 100%, respectively. The best estimate of prevalence for A. perfoliata in a herd was derived from fecal samples taken 24h after treatment. At 24h, 22 of 23 treated horses were positive, whereas on any day pre-treatment fewer horses were positive. Adverse reactions observed were mild to moderate colic and in only two treated horses.
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Affiliation(s)
- J Owen D Slocombe
- Department of Pathobiology, Ontario Veterinary College, University of Guelph, Guelph, Ont., Canada N1G 2W1.
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Abstract
Colic remains a significant problem in the horse in terms of welfare and economics; in some equine populations it is the single most common cause of death. Many causes of colic are cited in the equestrian and veterinary literature but little scientific evidence exists to substantiate these theories. Recent epidemiological investigations have confirmed that colic is complex and multi-factorial in nature. Studies have identified a number of factors that are associated with increased risk of colic including parasite burden, certain feed types, recent change in feeding practices, stabling, lack of access to pasture and water, increasing exercise and transport. These findings are reviewed together with examples of management practices that may be altered to reduce the incidence of specific types of colic. This is an opinionated, not a systematic, review focusing on those areas that are considered most relevant to the practitioner.
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Affiliation(s)
- D C Archer
- Faculty of Veterinary Science, University of Liverpool, Leahurst, Neston, The Wirral CH64 7TE, UK.
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