Hostname: page-component-586b7cd67f-tf8b9 Total loading time: 0 Render date: 2024-12-01T05:39:42.131Z Has data issue: false hasContentIssue false

Meriones unguiculatus infected by Haemonchus contortus: evaluation of different experimental protocols

Published online by Cambridge University Press:  19 April 2018

L.T. Gressler*
Affiliation:
Laboratory of Veterinary Parasitology, Universidade Federal de Santa Maria (UFSM), Avenida Roraima 1000, 97105-900 Santa Maria, RS, Brazil
T.H. Grando
Affiliation:
Laboratory of Veterinary Parasitology, Universidade Federal de Santa Maria (UFSM), Avenida Roraima 1000, 97105-900 Santa Maria, RS, Brazil
G. Machado do Carmo
Affiliation:
Laboratory of Veterinary Parasitology, Universidade Federal de Santa Maria (UFSM), Avenida Roraima 1000, 97105-900 Santa Maria, RS, Brazil
R.A. Vaucher
Affiliation:
Postgraduate Program on Biochemistry and Bioprospecting, Center for Chemistry, Pharmaceutical and Food Science, Universidade Federal de Pelotas (UFPel), Rua dos Ipês 1206, 96010-900 Pelotas, RS, Brazil
L.M. Stefani
Affiliation:
Postgraduate Program on Animal Science, Universidade do Estado de Santa Catarina (UDESC), Rua Beloni Trombeta Zanin 680E, 89815-630 Chapecó, SC, Brazil
S.G. Monteiro*
Affiliation:
Laboratory of Veterinary Parasitology, Universidade Federal de Santa Maria (UFSM), Avenida Roraima 1000, 97105-900 Santa Maria, RS, Brazil
*
Authors for correspondence: L.T. Gressler, E-mail: [email protected] S.G. Monteiro, E-mail: [email protected]
Authors for correspondence: L.T. Gressler, E-mail: [email protected] S.G. Monteiro, E-mail: [email protected]

Abstract

Many important studies on resistance reversion, anthelmintic efficacy and, especially, new molecules with antiparasitic effects are performed in laboratories using gerbils (Meriones unguiculatus) as the experimental model. This study aimed to evaluate the use of corticosteroids (dexamethasone and methylprednisolone acetate) in gerbils experimentally infected with different doses of infective larvae (sheathed or exsheathed) of Haemonchus contortus. In the first experiment, 28 gerbils were divided into seven groups infected by 2–6 × 103 larvae, with or without immunosuppression using corticosteroids. In the second experiment, eight gerbils were divided into two groups infected by 2 × 103 sheathed or exsheathed larvae. For the third assay, seven immunosuppressed gerbils were infected with 2 × 103 sheathed larvae and were killed 15 days post infection (PI). The highest number of parasites was recovered from methylprednisolone-immunosuppressed animals. We observed red and white blood cell alterations and biochemical parameters in infected animals that had undergone immunosuppression with methylprednisolone. We highlight that in the first and second experiments a satisfactory number of worms was recovered using sheathed larvae and immunocompetent animals. When exsheathed larvae were used, the number of worms recovered was unsatisfactory. A considerable larval burden was recovered from immunosuppressed gerbils 15 days PI, and body weight did not influence establishment of larvae.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 2018 

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

Almeida, FA, Garcia, KC, Torgerson, PR and Amarante, AF (2010) Multiple resistance to anthelmintics by Haemonchus contortus and Trichostrongylus colubriformis in sheep in Brazil. Parasitology International 59, 622625.Google Scholar
Amorim, RMR (2008) Cinética da eliminação de cistos e resposta imune humoral sistêmica e secretora intestinal em gerbils (Meriones unguiculatus) infectados experimentalmente com Giardia duodenalis. Dissertação (Mestre em Parasitologia) - Universidade Federal de Uberlândia, Uberlândia, MG, Brazil.Google Scholar
Amorim, RMR, Silva, DAO, Taketomi, EA et al. (2010) Giardia duodenalis: kinetics of cyst elimination and the systemic humoral and intestinal secretory immune responses in gerbils (Meriones unguiculatus) experimentally infected. Experimental Parasitology 125, 297303.Google Scholar
Arosemena, NAE, Bevilaqua, CML, Melo, ACF and Girao, MD (1999) Seasonal variations of gastrointestinal nematodes in sheep and goats from semi-arid areas in Brazil. Revista Medica Veterinária 150, 873876.Google Scholar
Conder, GA and Johnson, SS (1996) Viability of infective larvae of Haemonchus contortus, Ostertagia ostertagi, and Trichostrongylus colubriformis following exsheathment by various techniques. Journal of Parasitology 82, 100102.Google Scholar
Conder, GA, Jen, LW, Marbury, KS, Johnson, SS, Guimond, PM, Thomas, EM and Lee, BL (1990) A novel anthelmintic model utilizing jirds, Meriones unguiculatus, infected with Haemonchus contortus. Journal of Parasitology 76, 168170.Google Scholar
Conder, GA, Johnson, SS, Guimond, PM, Cox, DL and Lee, BL (1991) Concurrent infections with the ruminant nematodes Haemonchus contortus and Trichostrongylus colubriformis in jirds, Meriones unguiculatus, and use of this model for anthelmintic studies. Journal of Parasitology 77, 621623.Google Scholar
Court, JP, Lees, GM, Coop, RL, Angus, KW and Beesley, JE (1988) An attempt to produce Ostertagia circumcincta infections in Mongolian gerbils. Veterinary Parasitology 28, 7991.Google Scholar
De Jesús-Gabino, AF, Mendoza de Gives, P, Salinas-Sánchez, DO, López-Arellano, ME, Liébano-Hernández, E, Hernández-Velázquez, VM and Valladares-Cisneros, G (2010) Anthelmintic effects of Prosopis laevigata n-hexanic extract against Haemonchus contortus in artificially infected gerbils (Meriones unguiculatus). Journal of Helminthology 84, 7175.Google Scholar
Demeler, J, Kuttler, U and von Samson-Himmelstjerna, G (2010) Adaptation and evaluation of three different in vitro tests for the detection of resistance to anthelmintics in gastro intestinal nematodes of cattle. Veterinary Parasitology 170, 6170.Google Scholar
Freitas, THP and Souza, DAF (2007) Corticosteróides sistêmicos na prática dermatológica. Parte I – Principais efeitos adversos. Anais Brasileiros de Dermatologia 82, 6370.Google Scholar
Grando, TH, Baldissera, MD, Gressler, LT et al. (2016) Melaleuca alternifolia anthelmintic activity in gerbils experimentally infected by Haemonchus contortus. Experimental Parasitology 170, 177183.Google Scholar
Grando, TH, de Sá, MF, Baldissera, MD et al. (2015) In vitro activity of essential oils of free and nanostructured Melaleuca alternifolia and of terpinen-4-ol on eggs and larvae of Haemonchus contortus. Journal of Helminthology 90, 377382.Google Scholar
Horii, Y, Khan, AI and Nawa, Y (1993) Persistent infection of Strongyloides venezualensis and normal expulsion of Nippostrongylus brasiliensis in Mongolian gerbils, Meriones unguiculatus, with reference to the cellular responses in the intestinal mucosa. Parasite Immunology 15, 175179.Google Scholar
Kates, KC and Thompson, DE (1967) Activity of three anthelmintics against mixed infections of two Trichostrongylus species in gerbils, sheep, and goats. Proceedings of the Helminthological Society of Washington 34, 228236.Google Scholar
Königová, A, Hrckova, G, Velebný, S, Corba, J and Várady, M (2008) Experimental infection of Haemonchus contortus strains resistant and susceptible to benzimidazoles and the effect on mast cells distribution in the stomach of Mongolian gerbils (Meriones unguiculatus). Parasitology Research 102, 587595.Google Scholar
Königová, A, Hrčková, SG, Velebný, S, Dolinská, M, Molnár, L and Várady, M (2012) Effect of albendazole therapy on susceptible and resistant Haemonchus contortus larvae in Mongolian gerbils (Meriones unguiculatus) and distribution of inflammatory cells in the stomach wall. Helminthologia 49, 211220.Google Scholar
Larini, L (2008) Fármacos e medicamentos. Porto Alegre, Artmed.Google Scholar
Macedo, ITF, Oliveira, LMBde, Ribeiro, WLC, Santos, JMLdos, Silva, KdasC, Filho, JVdeA, Camurça-Vasconcelos, ALF and Bevilaqua, CML (2015) Anthelmintic activity of Cymbopogon citratus against Haemonchus contortus. Brazilian Journal of Veterinary Parasitology 24, 268275.Google Scholar
Machado, HHS, Gomes, FF, Oliveira, FCRde, Fiuza, VRdaS and Detmann, E (2006) Infecção experimental de gerbis (Meriones unguiculatus) com nematódeos de ovinos: eficiência bionutricional. Brazilian Journal of Veterinary Research Animal Science 43, 797802.Google Scholar
Molento, MB and Prichard, RK (1999) Effects of the multidrug-resistance-reversing agents verapamil and CL 347,099 on the efficacy of ivermectin or moxidectin against unselected and drug-selected strains of Haemonchus contortus in jirds (Meriones unguiculatus). Parasitology Research 85, 10071011.Google Scholar
Nolan, TJ, Megyeri, Z, Bhopale, VM and Schad, GA (1993) Strongyloides stercorlis: the first rodent model for uncomplicated and hyperinfective strongyloidiasis, the Mongolian gerbil (Meriones unguiculatus). Journal of Infectious Diseases 168, 14791484.Google Scholar
Ostlind, DA, Cifelli, S, Mickle, WG, Smith, SK, Ewanciw, DV, Rafalko, B, Felcetto, T and Misura, A (2006) Evaluation of broad-spectrum anthelmintic activity in a novel assay against Haemonchus contortus, Trichostrongylus colubriformis and T. sigmodontis in the gerbil Meriones unguiculatus. Journal of Helminthology 80, 393396.Google Scholar
Pereira, ALC, Bolzani, FCB, Stefani, M and Charlín, R (2007) Uso sistêmico de corticosteróides: revisão da literatura. Systemic corticosteroids: A review. Medicina Cutanea Ibero-Latino-Americana 35, 3550.Google Scholar
Ribeiro, WL, Macedo, IT, dos Santos, JM, de Oliveira, EF, Camurça-Vasconcelos, AL, de Paula, HC and Bevilaqua, CM (2013) Activity of chitosan-encapsulated Eucalyptus staigeriana essential oil on Haemonchus contortus. Experimental Parasitology 135, 2429.Google Scholar
Roberts, FHS and O'Sullivan, JP (1950) Methods for egg counts and larval cultures for strongyles infesting the gastrointestinal tract of cattle. Australian Journal of Agricultural Research 1, 99.Google Scholar
Rojas, DK, López, J, Tejada, I, Vázquez, V, Shimada, A, Sánchez, D and Ibarra, F (2006) Impact of condensed tannins from tropical forages on Haemonchus contortus burdens in Mongolian gerbils (Meriones unguiculatus) and Pelibuey lambs. Animal Feed Science and Technology 128, 218228.Google Scholar
Squires, JM, Ferreira, JF, Lindsay, DS and Zajac, AM (2010) Efficacy of an orange oil emulsion as an anthelmintic against Haemonchus contortus in gerbils (Meriones unguiculatus) and in sheep. Veterinary Parasitology 172, 9599.Google Scholar
Squires, JM, Foster, JG, Lindsay, DS, Caudell, DL and Zajac, AM (2011) Effects of artemisinin and Artemisia extracts on Haemonchus contortus in gerbils (Meriones unguiculatus). Veterinary Parasitology 175, 103108.Google Scholar
Tizard, IR (2014) Imunologia veterinária. 9th edn. Rio de Janeiro, Elsevier.Google Scholar
Ueno, H and Gonçalves, PC (1998) Manual para diagnóstico das helmintoses de ruminantes. 4th edn. Japan, International Cooperation Agency.Google Scholar
Urquhart, GM, Armour, J, Duncan, JL, Dunn, AM and Jennings, FW (1990) Parasitologia veterinária. 3rd edn. Rio de Janeiro, Guanabara Koogan.Google Scholar
Ziam, H, Pandeya, VS, Darwichea, J, Lossonb, B and Kumara, V (1999) Biological parameters of Trichostrongylus colubriformis in Meriones unguiculatus. Veterinary Parasitology 81, 309322.Google Scholar