Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-28T00:27:08.908Z Has data issue: false hasContentIssue false

Questionnaire survey on helminth control practices in horse farms in Ireland

Published online by Cambridge University Press:  12 April 2019

Nagwa Elghryani*
Affiliation:
School of Veterinary Medicine, University College Dublin, Dublin, Ireland
Vivienne Duggan
Affiliation:
School of Veterinary Medicine, University College Dublin, Dublin, Ireland
Valerie Relf
Affiliation:
SAC Consulting, Veterinary Services United Kingdom, Edinburgh, United Kingdom of Great Britain and Northern Ireland
Theo de Waal
Affiliation:
School of Veterinary Medicine, University College Dublin, Dublin, Ireland
*
Author for correspondence: Nagwa Elghryani, E-mail: [email protected]

Abstract

Knowledge regarding helminth control strategies and nematode infection of horses in Ireland is limited and only one study has been published recently. This present study was designed to investigate the current helminth control strategies followed by horse owners in Ireland. A questionnaire was formulated to collect data on general grazing, pasture management and deworming strategies including the use of fecal egg counts. Questionnaires were emailed to 700 members of the Irish Thoroughbred Breeders Association and Horse Sport Ireland. Only 78 questionnaires were returned. Respondents indicated that horses are grazed for 16–24 h day−1 during the summer and autumn (89% and 65%, respectively). Removing feces from the pasture was implemented by 37.6% of respondents. Few (22.2%) owners kept horses off pasture after worming. Overall, ivermectin and moxidectin were the most commonly administered anthelmintics in 2014 by 75% and 62% of respondents, respectively. Benzimidazole and pyrantel drugs were used by 53% and 35% of respondents, respectively. The majority of farms (81.4%) treated horses 4–5 times per year and 74.2% only estimated the weight of the horses visually. The findings of this study illustrates that many stud managers/owners do not follow best practice with regard to helminth control and more education is needed.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2019 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Bolwell, CF, Rosanowski, SM, Scott, I, Sells, PD and Rogers, CW (2015) Questionnaire study on parasite control practices on Thoroughbred and Standardbred breeding farms in New Zealand. Veterinary Parasitology 209, 6269.Google Scholar
Canever, RJ, Braga, PR, Boeckh, A, Grycajuck, M, Bier, D and Molento, MB (2013) Lack of Cyathostomin sp. reduction after anthelmintic treatment in horses in Brazil. Veterinary Parasitology 194, 3539.Google Scholar
Coles, GC, Jackson, F, Pomroy, WE, Prichard, RK, von Samson-Himmelstjerna, G, Silvestre, A, Taylor, MA and Vercruysse, J (2006) The detection of anthelmintic resistance in nematodes of veterinary importance. Veterinary Parasitology 136, 167185.Google Scholar
Corbett, CJ, Love, S, Moore, A, Burden, FA, Matthews, JB and Denwood, MJ (2014) The effectiveness of faecal removal methods of pasture management to control the cyathostomin burden of donkeys. Parasites & Vectors 7, 4848.Google Scholar
De Graef, J, Claerebout, E and Geldhof, P (2013) Anthelmintic resistance of gastrointestinal cattle nematodes. Vlaams Diergeneeskundig Tijdschrift 82, 113123.Google Scholar
Drudge, JH and Lyons, ET (1966) Control of internal parasites of the horse. Journal of the American Veterinary Medical Association 148, 378383.Google Scholar
Dukes, A (2009) Analysis of the economic impact of the Irish Thoroughbred Horse Industry. Irish Thoroughbred Breeders’ Association 120. http://www.hri.ie/uploadedFiles/HRI-Corporate/Dukes%20Report%20%202009%20.pdfGoogle Scholar
Eysker, M, Jansen, J, Wemmenhove, R and Mirck, MH (1983) Alternate grazing of horses and sheep as control for gastro-intestinal helminthiasis in horses. Veterinary Parasitology 13, 273280.Google Scholar
Eysker, M, Jansen, J and Mirck, MH (1986) Control of strongylosis in horses by alternate grazing of horses and sheep and some other aspects of the epidemiology of Strongylidae infections. Veterinary Parasitology 19, 103115.Google Scholar
Eysker, M, van Doorn, DC, Lems, SN, Weteling, A and Ploeger, HW (2006) Frequent deworming in horses; it usually does not do any good, but it often harms. Tijdschrift voor diergeneeskunde 131, 524530.Google Scholar
Fritzen, B, Rohn, K, Schnieder, T and von Samson-Himmelstjerna, G (2010) Endoparasite control management on horse farms – lessons from worm prevalence and questionnaire data. Equine Veterinary Journal 42, 7983.Google Scholar
Hinney, B, Wirtherle, NC, Kyule, M, Miethe, N, Zessin, KH and Clausen, PH (2011) A questionnaire survey on helminth control on horse farms in Brandenburg, Germany and the assessment of risks caused by different kinds of management. Parasitology Research 109, 16251635.Google Scholar
Joost, MEP, Irwin, SH and Good, DL (2002) Surveying farmers: a case study. Review of Agricultural Economics 24, 266277.Google Scholar
Kaplan, RM (2004) Drug resistance in nematodes of veterinary importance: a status report. Trends in Parasitology 20, 477481.Google Scholar
Kaplan, RM and Nielsen, MK (2010) An evidence-based approach to equine parasite control: it ain't the 60s anymore. Equine Veterinary Education 22, 306316.Google Scholar
Kaplan, RM and Vidyashankar, AN (2012) An inconvenient truth: global warming and anthelmintic resistance. Veterinary Parasitology 186, 7078.Google Scholar
Kooyman, FN, van Doorn, DC, Geurden, T, Mughini-Gras, L, Ploeger, HW and Wagenaar, JA (2016) Species composition of larvae cultured after anthelmintic treatment indicates reduced moxidectin susceptibility of immature Cylicocyclus species in horses. Veterinary Parasitology 227, 7784.Google Scholar
Lendal, S, Larsen, MM, Bjørn, H, Craven, J, Chriél, M and Olsen, SN (1998) A questionnaire survey on nematode control practices on horse farms in Denmark and the existence of risk factors for the development of anthelmintic resistance. Veterinary Parasitology 78, 4963.Google Scholar
Lester, HE, Spanton, J, Stratford, CH, Bartley, DJ, Morgan, ER, Hodgkinson, JE, Coumbe, K, Mair, T, Swan, B, Lemon, G, Cookson, R and Matthews, JB (2013) Anthelmintic efficacy against cyathostomins in horses in southern England. Veterinary Parasitology 197, 189196.Google Scholar
Lester, HE, Morgan, ER, Hodgkinson, JE and Matthews, JB (2018) Analysis of strongyle egg shedding consistency in horses and factors that affect It. Journal of Equine Veterinary Science 60, 113119. e111.Google Scholar
Lind, EO, Rautalinko, E, Uggla, A, Waller, PJ, Morrison, DA and Höglund, J (2007) Parasite control practices on Swedish horse farms. Acta Veterinaria Scandinavica 49, 2525.Google Scholar
Little, D, Flowers, JR, Hammerberg, BH and Gardner, SY (2003) Management of drug-resistant cyathostominosis on a breeding farm in central North Carolina. Equine Veterinary Journal 35, 246251.Google Scholar
Lloyd, S, Smith, J, Connan, RM, Hatcher, MA, Hedges, TR, Humphrey, DJ and Jones, AC (2000) Parasite control methods used by horse owners: factors predisposing to the development of anthelmintic resistance in nematodes. The Veterinary Record 146, 487492.Google Scholar
Lyons, ET, Tolliver, SC, Collins, SS, Ionita, M, Kuzmina, TA and Rossano, M (2011) Field tests demonstrating reduced activity of ivermectin and moxidectin against small strongyles in horses on 14 farms in Central Kentucky in 2007–2009. Parasitology Research 108, 355360.Google Scholar
Martins, IVF, Verocai, GG, Correia, TR, Melo, RMPS, Pereira, MJS, Scott, FB and Grisi, L (2009) Survey on control and management practices of equine helminths infection. Pesquisa Veterinária Brasileira 29, 253257.Google Scholar
Matthee, S, Dreyer, FH, Hoffmann, WA and van Niekerk, FE (2002) An introductory survey of helminth control practices in South Africa and anthelmintic resistance on Thoroughbred stud farms in the Western Cape Province. Journal of the South African Veterinary Association 73, 195200.Google Scholar
Molento, MB, Antunes, J, Bentes, RN and Coles, GC (2008) Anthelmintic resistant nematodes in Brazilian horses. The Veterinary Record 162, 384385.Google Scholar
Nareaho, A, Vainio, K and Oksanen, A (2011) Impaired efficacy of ivermectin against Parascaris equorum, and both ivermectin and pyrantel against strongyle infections in trotter foals in Finland. Veterinary Parasitology 182, 372377.Google Scholar
Nielsen, MK (2012) Sustainable equine parasite control: perspectives and research needs. Veterinary Parasitology 185, 3244.Google Scholar
Nielsen, MK (2015) Universal challenges for parasite control: a perspective from equine parasitology. Trends in Parasitology 31, 282284.Google Scholar
Nielsen, MK, Monrad, J and Olsen, SN (2006) Prescription-only anthelmintics – a questionnaire survey of strategies for surveillance and control of equine strongyles in Denmark. Veterinary Parasitology 135, 4755.Google Scholar
Nielsen, MK, Kaplan, RM, Thamsborg, SM, Monrad, J and Olsen, SN (2007) Climatic influences on development and survival of free-living stages of equine strongyles: implications for worm control strategies and managing anthelmintic resistance. Veterinary Journal 174, 2332.Google Scholar
Nielsen, MK, Baptiste, KE, Tolliver, SC, Collins, SS and Lyons, ET (2010a) Analysis of multiyear studies in horses in Kentucky to ascertain whether counts of eggs and larvae per gram of feces are reliable indicators of numbers of strongyles and ascarids present. Veterinary Parasitology 174, 7784.Google Scholar
Nielsen, MK, Fritzen, B, Duncan, JL, Guillot, J, Eysker, M, Dorchies, P, Laugier, C, Beugnet, F, Meana, A, Lussot-Kervern, I and von Samson-Himmelstjerna, G (2010b) Practical aspects of equine parasite control: a review based upon a workshop discussion consensus. Equine Veterinary Journal 42, 460468.Google Scholar
Nielsen, MK, Vidyashankar, AN, Hanlon, BM, Diao, G, Petersen, SL and Kaplan, RM (2013) Hierarchical model for evaluating pyrantel efficacy against strongyle parasites in horses. Veterinary Parasitology 197, 614622.Google Scholar
Nielsen, MK, Pfister, K and von Samson-Himmelstjerna, G (2014a) Selective therapy in equine parasite control – application and limitations. Veterinary Parasitology 202, 95103.Google Scholar
Nielsen, MK, Reinemeyer, CR, Donecker, JM, Leathwick, DM, Marchiondo, AA and Kaplan, RM (2014b) Anthelmintic resistance in equine parasites – current evidence and knowledge gaps. Veterinary Parasitology 204, 5563.Google Scholar
Nielsen, MK, Reist, M, Kaplan, RM, Pfister, K, van Doorn, DC and Becher, A (2014c) Equine parasite control under prescription-only conditions in Denmark – awareness, knowledge, perception, and strategies applied. Veterinary Parasitology 204, 6472.Google Scholar
O'Meara, B and Mulcahy, G (2002) A survey of helminth control practices in equine establishments in Ireland. Veterinary Parasitology 109, 101110.Google Scholar
Oppenheim, AN (2005) Questionnaire Design, Interviewing and Attitude Measurement, New edn. London: Continuum.Google Scholar
Papini, RA, De Bernart, FM and Sgorbini, M (2015) A questionnaire survey on intestinal worm control practices in Horses in Italy. Journal of Equine Veterinary Science 35, 7075.Google Scholar
Peregrine, AS, Molento, MB, Kaplan, RM and Nielsen, MK (2014) Anthelmintic resistance in important parasites of horses: does it really matter? Veterinary Parasitology 201, 18.Google Scholar
Quigley, A, Sekiya, M, Egan, S, Wolfe, A, Negredo, C and Mulcahy, G (2017) Prevalence of liver fluke infection in Irish horses and assessment of a serological test for diagnosis of equine fasciolosis. Equine Veterinary Journal 49, 183188.Google Scholar
Relf, VE, Morgan, ER, Hodgkinson, JE and Matthews, JB (2012) A questionnaire study on parasite control practices on UK breeding Thoroughbred studs. Equine Veterinary Journal 44, 466471.Google Scholar
Relf, VE, Morgan, ER, Hodgkinson, JE and Matthews, JB (2013) Helminth egg excretion with regard to age, gender and management practices on UK Thoroughbred studs. Parasitology 140, 641652.Google Scholar
Relf, VE, Lester, HE, Morgan, ER, Hodgkinson, JE and Matthews, JB (2014) Anthelmintic efficacy on UK Thoroughbred stud farms. International Journal for Parasitology 44, 507514.Google Scholar
Robert, M, Hu, W, Nielsen, MK and Stowe, CJ (2015) Attitudes towards implementation of surveillance-based parasite control on Kentucky Thoroughbred farms – current strategies, awareness and willingness-to-pay. Equine Veterinary Journal 47, 694700.Google Scholar
Rossano, MG, Smith, AR and Lyons, ET (2010) Shortened strongyle-type egg reappearance periods in naturally infected horses treated with moxidectin and failure of a larvicidal dose of fenbendazole to reduce fecal egg counts. Veterinary Parasitology 173, 349352.Google Scholar
Schneider, S, Pfister, K, Becher, AM and Scheuerle, MC (2014) Strongyle infections and parasitic control strategies in German horses – a risk assessment. BMC Veterinary Research 10, 262270.Google Scholar
Shalaby, HA (2013) Anthelmintics resistance; how to overcome it? Iran Journal Parasitology 8, 1832.Google Scholar
Stratford, CH, Lester, HE, Morgan, ER, Pickles, KJ, Relf, V, McGorum, BC and Matthews, JB (2014) A questionnaire study of equine gastrointestinal parasite control in Scotland. Equine Veterinary Journal 46, 2531.Google Scholar
Traversa, D., von Samson-Himmelstjerna, G., Demeler, J., Milillo, P., Schurmann, S., Barnes, H., Otranto, D., Perrucci, S., di Regalbono, A. F., Beraldo, P., Boeckh, A. and Cobb, R. (2009). Anthelmintic resistance in cyathostomin populations from horse yards in Italy, United Kingdom and Germany. Parasites & Vectors 2 (suppl. 2), S2.Google Scholar
van Doorn, DCK, Eysker, M, Geurden, T, Ploeger, HW, Kooyman, FNJ and Wagenaar, J (2014) Cylicocyclus species predominate during shortened egg reappearance period in horses after treatment with ivermectin and moxidectin. Veterinary Parasitology 206, 246252.Google Scholar
von Samson-Himmelstjerna, G., Traversa, D., Demeler, J., Rohn, K., Milillo, P., Schurmann, S., Lia, R., Perrucci, S., di Regalbono, A. F, Beraldo, P., Barnes, H., Cobb, R. and Boeckh, A. (2009). Effects of worm control practices examined by a combined faecal egg count and questionnaire survey on horse farms in Germany, Italy and the UK. Parasites & Vectors 2 (suppl. 2), S3.Google Scholar