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Abbas G, Ghafar A, McConnell E, Beasley A, Bauquier J, Wilkes EJA, El-Hage C, Carrigan P, Cudmore L, Hurley J, Gauci CG, Beveridge I, Ling E, Jacobson C, Stevenson MA, Nielsen MK, Hughes KJ, Jabbar A. A national survey of anthelmintic resistance in ascarid and strongylid nematodes in Australian Thoroughbred horses. Int J Parasitol Drugs Drug Resist 2024; 24:100517. [PMID: 38064906 PMCID: PMC10757041 DOI: 10.1016/j.ijpddr.2023.11.006] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/19/2023] [Revised: 11/19/2023] [Accepted: 11/19/2023] [Indexed: 01/02/2024]
Abstract
This study quantified the extent of anthelmintic resistance (AR) in ascarid and strongylid nematodes against commonly used anthelmintics in Australian Thoroughbred horses. Faecal egg count reduction tests (FECRTs, n = 86) and egg reappearance period (ERP) tests were conducted on 22 farms across Australia. Faecal egg counts (FECs) were determined using the modified McMaster technique, and percent faecal egg count reduction (%FECR) was calculated using the Bayesian hierarchical model and hybrid Frequentist/Bayesian analysis method. The results were interpreted using old (published in 1992) and new (2023) research guidelines of the World Association for the Advancement of Veterinary Parasitology (WAAVP). The species composition of strongylid nematodes was detected utilising a DNA-metabarcoding method using pre- and post-treatment samples. Resistance was observed in strongylid nematodes to commonly used single-active and combination anthelmintics, including ivermectin (IVM %FECR range: 82%-92%; 95% lower credible interval (LCI) range: 80%-90%), abamectin (ABM: 73%-92%; 65%-88%), moxidectin (MOX: 89%-91%; 84%-89%), oxfendazole (OFZ: 0%-56%; 0%-31%) and its combination with pyrantel (OFZ + PYR: 0%-82%; 0%-78%). Resistance in Parascaris spp. was observed to IVM (10%-43%; 0%-36%), ABM (0%; 0%) and MOX (0%; 0%). When the new thresholds recommended by the WAAVP were used, AR was detected in six additional FECRTs for strongylids and three more tests for Parascaris spp., introducing resistance to OFZ and OFZ + PYR in the latter. Shortened ERPs (4-6 weeks) of strongylids were observed in 31 FECRTs in which AR was not detected at 2 weeks post-treatment for all the anthelmintics tested. Among cyathostomins, Cylicocyclus nassatus, Cylicostephanus longibursatus and Coronocyclus coronatus were the most prevalent species at 2 weeks post-treatment, whereas the main species appearing at five weeks following treatments with macrocyclic lactones were Cylicocyclus nassatus, Cylicostephanus longibursatus and Cylicocyclus ashworthi. After treatment with OFZ + PYR, the latter three, plus Coronocyclus coronatus and Cyathostomum catinatum, were detected at 5 weeks post-treatment. Overall, the study highlights the prevalence of AR in both ascarids and strongylid nematodes against commonly used anthelmintic products to control worms in Australian horses. The results indicate that ML combination products provided acceptable efficacy at 2 weeks. However, ERP calculations suggest that products work less effectively than previously measured. It is suggested to regularly monitor the efficacy of the anthelmintics and consider changing the worm control practices to better manage worms and AR in Australian horses.
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Affiliation(s)
- Ghazanfar Abbas
- Melbourne Veterinary School, The University of Melbourne, Werribee, Victoria 3030, Australia
| | - Abdul Ghafar
- Melbourne Veterinary School, The University of Melbourne, Werribee, Victoria 3030, Australia
| | - Emma McConnell
- Centre for Animal Production and Health, Murdoch University, Murdoch, Western Australia, Australia
| | - Anne Beasley
- School of Agriculture and Food Sustainability, University of Queensland, Gatton, Queensland 4343, Australia
| | - Jenni Bauquier
- Melbourne Veterinary School, The University of Melbourne, Werribee, Victoria 3030, Australia
| | | | - Charles El-Hage
- Melbourne Veterinary School, The University of Melbourne, Werribee, Victoria 3030, Australia
| | - Peter Carrigan
- Scone Equine Hospital, Scone, New South Wales 2337, Australia
| | - Lucy Cudmore
- Scone Equine Hospital, Scone, New South Wales 2337, Australia
| | - John Hurley
- Swettenham Stud, Nagambie, Victoria 3608, Australia
| | - Charles G Gauci
- Melbourne Veterinary School, The University of Melbourne, Werribee, Victoria 3030, Australia
| | - Ian Beveridge
- Melbourne Veterinary School, The University of Melbourne, Werribee, Victoria 3030, Australia
| | - Elysia Ling
- Melbourne Veterinary School, The University of Melbourne, Werribee, Victoria 3030, Australia
| | - Caroline Jacobson
- Centre for Animal Production and Health, Murdoch University, Murdoch, Western Australia, Australia
| | - Mark A Stevenson
- Melbourne Veterinary School, The University of Melbourne, Werribee, Victoria 3030, Australia
| | - Martin K Nielsen
- M.H. Gluck Equine Research Center, Department of Veterinary Science, University of Kentucky, Lexington, KY, USA
| | - Kristopher J Hughes
- School of Agricultural, Environmental and Veterinary Sciences, Charles Sturt University, Wagga Wagga, New South Wales 2650, Australia
| | - Abdul Jabbar
- Melbourne Veterinary School, The University of Melbourne, Werribee, Victoria 3030, Australia.
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2
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Medeiros PR, Figueiredo LS, de Melo UP, Mariz ALB, de Brito EL, Araújo IRDS, Silva ALDC, Costa MHDS, Ferreira C, Assis DB, da Silva CRM, de Souza AL, de Souza MPDS. Survey on sanitary practices and knowledge about infectious diseases among equine owners in the State of Rio Grande do Norte, Brazil. BRAZILIAN JOURNAL OF VETERINARY MEDICINE 2023; 45:e003323. [PMID: 38090190 PMCID: PMC10712268 DOI: 10.29374/2527-2179.bjvm003323] [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: 08/07/2023] [Accepted: 11/11/2023] [Indexed: 05/29/2024] Open
Abstract
As the primary decision-maker about the health, nutrition, and well-being of their horses, owners' knowledge of correct management practices and clinical changes can potentially affect the immediate health of their horses, in addition to having an impact on the prevention of disease spread in the herd. The adoption of management practices to prevent the introduction and spread of pathogens depends on various factors, including demographics, awareness of the problem, perceived responsibility, previously held beliefs, and sociocultural norms. This study aimed to evaluate the health management practices and the level of knowledge about infectious diseases of equine owners in the state of Rio Grande do Norte, Brazil. A cross-sectional study was conducted by distributing a questionnaire to horse owners in Rio Grande do Norte, Brazil. The participants included horse owners irrespective of the duration of ownership, experience, or sports practiced. In addition to the hygiene and management of animals, the questionnaire addressed topics related to the facilities where the horses were kept. Three hundred and two horse owners distributed in 60 of the 167 municipalities in the state of Rio Grande do Norte participated in this study. Among the interviewed owners, 63.90% (193/302) answered that they do not quarantine animals introduced into the herd or those visiting the property. Regarding the deworming program, 95.03% (287/302) of the owners regularly dewormed their animals. However, more than half of the participants sought veterinary guidance (54.30%). Investing in educational programs and increasing the awareness of equine owners in the state of Rio Grande do Norte about the main infectious diseases in horses is essential toward improving sanitary management and the general health of animals. Informed owners play an essential role in creating safer environments for their horses, thereby contributing to the sustainability of the equine industry.
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Affiliation(s)
- Paulo Roberto Medeiros
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Liliany Silva Figueiredo
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | | | - Amanda Louíse Bittencourt Mariz
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Emilson Lima de Brito
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Ingrid Raquel dos Santos Araújo
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Allyson Lincoln Da Costa Silva
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Mariana Henrique da Silveira Costa
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Cintia Ferreira
- 2- Veterinarian, D.Sc. GEPMEq, Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Daniel Barbosa Assis
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Camilla Raylly Miguel da Silva
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Aldemir Lopes de Souza
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
| | - Magna Pereira da Silva de Souza
- 1- Undergraduate in Veterinary Medicine, Grupo de estudos e pesquisa em medicina equina (GEPMEq), Centro Universitário Mauricio de Nassau, Natal, RN, Brazil.
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Macdonald SL, Abbas G, Ghafar A, Gauci CG, Bauquier J, El-Hage C, Tennent-Brown B, Wilkes EJA, Beasley A, Jacobson C, Cudmore L, Carrigan P, Hurley J, Beveridge I, Hughes KJ, Nielsen MK, Jabbar A. Egg reappearance periods of anthelmintics against equine cyathostomins: The state of play revisited. Int J Parasitol Drugs Drug Resist 2022; 21:28-39. [PMID: 36543048 PMCID: PMC10105024 DOI: 10.1016/j.ijpddr.2022.12.002] [Citation(s) in RCA: 12] [Impact Index Per Article: 6.0] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/07/2022] [Revised: 12/11/2022] [Accepted: 12/11/2022] [Indexed: 12/14/2022]
Abstract
Cyathostomins are the most common and highly prevalent parasites of horses worldwide. Historically, the control of cyathostomins has mainly relied on the routine use of anthelmintic products. Increasing reports on anthelmintic resistance (AR) in cyathostomins are concerning. A potential method proposed for detecting emerging AR in cyathostomins has been estimating the egg reappearance period (ERP). This paper reviews the data available for the ERP of cyathostomins against the three major classes of anthelmintics, macrocyclic lactones, tetrahydropyrimidines, and benzimidazoles. Published peer-reviewed original research articles were obtained from three databases (PubMed, CAB Direct and Web of Science) and were evaluated for their inclusion in a systematic review. Subsets of articles were then subjected to a review of ERP data. A total of 54 (of 134) studies published between 1972 and 2022 met the criteria for inclusion in the systematic review. Until the beginning of 2022, there was no agreed definition of the ERP; eight definitions of ERP were identified in the literature, complicating the comparison between studies. Additionally, potential risk factors for the shortening of the ERP, including previous anthelmintic use and climate, were frequently not described. Reports of shortened ERP for moxidectin and ivermectin are frequent: 20 studies that used comparable ERP definitions reported shortened moxidectin and ivermectin ERPs of 35 and 28 days, respectively. It is unclear whether the ERPs of these anthelmintics reduced to such levels are due to the development of AR or some biological factors related to horses, cyathostomin species, and/or the environment. The ERPs for other anthelmintics, such as fenbendazole and pyrantel, were frequently not reported due to established resistance against these drugs. Future research in horses is required to understand the mechanism(s) behind the shortening of ERP for cyathostomins. Based on this systematic review, we propose recommendations for future ERP studies.
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Affiliation(s)
- Stephanie L Macdonald
- Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Werribee, Victoria, Australia
| | - Ghazanfar Abbas
- Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Werribee, Victoria, Australia
| | - Abdul Ghafar
- Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Werribee, Victoria, Australia
| | - Charles G Gauci
- Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Werribee, Victoria, Australia
| | - Jenni Bauquier
- Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Werribee, Victoria, Australia
| | - Charles El-Hage
- Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Werribee, Victoria, Australia
| | - Brett Tennent-Brown
- Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Werribee, Victoria, Australia
| | | | - Anne Beasley
- School of Agriculture and Food Sciences, University of Queensland, Gatton, Queensland, Australia
| | - Caroline Jacobson
- Centre for Animal Production and Health, Murdoch University, Murdoch, Western Australia, Australia
| | - Lucy Cudmore
- Scone Equine Hospital, Scone, New South Wales, Australia
| | - Peter Carrigan
- Scone Equine Hospital, Scone, New South Wales, Australia
| | - John Hurley
- Swettenham Stud, Nagambie, Victoria, Australia
| | - Ian Beveridge
- Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Werribee, Victoria, Australia
| | - Kristopher J Hughes
- School of Animal and Veterinary Sciences, Charles Sturt University, Wagga Wagga, New South Wales, Australia
| | - Martin K Nielsen
- M.H. Gluck Equine Research Center, Department of Veterinary Science, University of Kentucky, Lexington, KY, USA
| | - Abdul Jabbar
- Melbourne Veterinary School, Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Werribee, Victoria, Australia.
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Apolinário ECF, Oliveira LLDS, Rocha RHF, Silva FVE, Santos IS, Alves CA, Dias Júnior JA, Mendes LDJ, Lima WDS. Anthelmintic efficacy in strongyles of horses in Northern Minas Gerais, Brazil. Vet Parasitol Reg Stud Reports 2022; 36:100810. [PMID: 36436897 DOI: 10.1016/j.vprsr.2022.100810] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/21/2022] [Revised: 10/18/2022] [Accepted: 11/14/2022] [Indexed: 11/25/2022]
Abstract
The intensive use of anthelmintics has resulted in resistant parasite populations in horses. The objective of this trial was to evaluate the anthelmintic efficacies of the anthelmintics fenbendazole, ivermectin and abamectin in 24 horse farms in Northern Minas Gerais. Egg counts per gram of faeces (EPG) were performed individually in 619 animals. Animals presenting EPG counts greater than or equal to 150 were used in the tests on faecal egg count reduction (FECR), totalling 436 equines. These animals received the anthelmintics, fenbendazole, ivermectin, and abamectin. Faeces were collected 14 days after the administration of anthelmintics to perform the EPG. Pre- and post-treatment EPG counts were used to calculate the FECR for each anthelmintic group, and faecal culture was used to identificy of the strongyles. The resistance status was evaluated based on the FECR and LCL95%. Fenbendazole was effective in 11 (45.8%) of the horse farms. Ivermectin was effective in 17 (77.3%) and abamectin in 17 (74%) of the farms; side-resistance was detected in 3 (12.5%) of the farms. Intestinal strongyle resistance to anthelmintics was observed in 14 (58.3%) of the farms. Cyathostomin larvae were found in 100% of the farms, Strongylus vulgaris in 13 (54.2%), and S. equinus in 3 (12.5%). Only cyathostomins larvae were detected post-treatment with ivermectin and abamectin.
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Affiliation(s)
- Estefânia Conceição Felipe Apolinário
- Departamento de Ciências Agrárias, Universidade Estadual de Montes Claros (UNIMONTES), Reinaldo Viana Av., São Vicente, 39.448-524 Janaúba, MG, Brazil
| | - Laura Lúcia Dos Santos Oliveira
- Departamento de Ciências Agrárias, Universidade Estadual de Montes Claros (UNIMONTES), Reinaldo Viana Av., São Vicente, 39.448-524 Janaúba, MG, Brazil.
| | - Raul Herberth Freitas Rocha
- Departamento de Ciências Agrárias, Universidade Estadual de Montes Claros (UNIMONTES), Reinaldo Viana Av., São Vicente, 39.448-524 Janaúba, MG, Brazil
| | - Fredson Vieira E Silva
- Departamento de Ciências Agrárias, Universidade Estadual de Montes Claros (UNIMONTES), Reinaldo Viana Av., São Vicente, 39.448-524 Janaúba, MG, Brazil.
| | - Izadora Souza Santos
- Departamento de Ciências Agrárias, Universidade Estadual de Montes Claros (UNIMONTES), Reinaldo Viana Av., São Vicente, 39.448-524 Janaúba, MG, Brazil
| | - Cleison Augusto Alves
- Departamento de Ciências Agrárias, Universidade Estadual de Montes Claros (UNIMONTES), Reinaldo Viana Av., São Vicente, 39.448-524 Janaúba, MG, Brazil
| | - José Alisson Dias Júnior
- Departamento de Ciências Agrárias, Universidade Estadual de Montes Claros (UNIMONTES), Reinaldo Viana Av., São Vicente, 39.448-524 Janaúba, MG, Brazil
| | - Laydiane de Jesus Mendes
- Departamento de Ciências Agrárias, Universidade Estadual de Montes Claros (UNIMONTES), Reinaldo Viana Av., São Vicente, 39.448-524 Janaúba, MG, Brazil
| | - Walter Dos Santos Lima
- Departamento de Parasitologia, Instituto de Ciências Biológicas, Universidade Federal de Minas Gerais (UFMG), Presidente Antônio Carlos Av., 6627, 31270-901 Belo Horizonte, MG, Brazil.
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Anthelmintic resistance in equine nematodes: Current status and emerging trends. Int J Parasitol Drugs Drug Resist 2022; 20:76-88. [PMID: 36342004 PMCID: PMC9630620 DOI: 10.1016/j.ijpddr.2022.10.005] [Citation(s) in RCA: 37] [Impact Index Per Article: 18.5] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/05/2022] [Revised: 10/19/2022] [Accepted: 10/20/2022] [Indexed: 11/06/2022]
Abstract
Anthelmintic resistance is reported in equine nematodes with increasing frequency in recent years, and no new anthelmintic classes have been introduced during the past 40 years. This manuscript reviews published literature describing anthelmintic resistance in cyathostomins, Parascaris spp., and Oxyuris equi with special emphasis on larvicidal efficacy against encysted cyathostomin larvae and strongylid egg reappearance periods (ERP). Resistance to benzimidazoles and pyrimidines is highly prevalent in cyathostomin populations around the world, and macrocyclic lactone resistance has been documented in cyathostomins in recent years as well. Two recent studies have documented resistance to the larvicidal regimen of fenbendazole, whereas the larvicidal efficacy of moxidectin is variable, but with no evidence of a reduction from historic levels. In the 1990s, ERP estimates were 8-10 and 12-16 weeks for ivermectin and moxidectin, respectively, while several studies published after year 2000 found ERPs to be 5 weeks for both compounds. This is a clear change in anthelmintic performance, but it remains unclear if this is due to development of anthelmintic resistance or selection for other biological traits leading to a quicker resumption of strongylid egg shedding following anthelmintic treatment. Macrocyclic lactone resistance is common in Parascaris spp. around the world, but recent reports suggests that resistance to the two other classes should be monitored as well. Finally, O. equi has been reported resistant to ivermectin and moxidectin in countries representing four continents. In conclusion, multi-drug resistance is becoming the norm in managed cyathostomin populations around the world, and a similar pattern may be emerging in Parascaris spp. More work is required to understand the mechanisms behind the shortened ERPs, and researchers and veterinarians around the world are encouraged to routinely monitor anthelmintic efficacy against equine nematodes.
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