Impact of protein energy malnutrition on Trichuris suis infection in pigs concomitantly infected with Ascaris suum

S. PEDERSEN; I. SAEED; K. F. MICHAELSEN; H. FRIIS; K. D. MURRELL

doi:10.1017/S0031182002001592

Abstract

The objective of this experiment was to investigate a possible interaction between protein and energy malnutrition (PEM) and intestinal nematode infections. We report on a 3×2 factorial study in which pigs were fed either a low protein energy (LPE), low protein (LP) or a normal protein energy (NPE) diet, and 6 weeks later inoculated with Trichuris suis (4000 infective eggs). Secondarily, in order to obtain a polyparasitic status, pigs were concomitantly inoculated with Ascaris suum (600 infective eggs). The number of T. suis-infected pigs was higher in LP pigs compared with NPE pigs (100 versus 58%; P = 0·037), although the differences in median T. suis worm burdens between groups at necropsy 10 weeks post-infection (p.i.) (LPE: 795; LP: 835; NPE: 48 worms; P = 0·33) were not significant. Interestingly, only T. suis in NPE were highly aggregated (k = 0·44), in contrast to a more uniform distribution among pigs in LPE (k = 1·43) and LP (k = 1·55) i.e. the majority of pigs harboured moderate worm burdens in LPE and LP, while most pigs had few or no worms in NPE. Further, T. suis worms in the LPE and LP groups were decreased in length (mean: LPE: 23·5 mm; LP: 24·3 mm; NPE: 29·4 mm; P = 0·004). The pre-patency period of T. suis was also extended in the LPE and LP groups, as reflected by lower faecal egg output at week 6 (P = 0·048) and/or 7 p.i. (P = 0·007). More A. suum worms were recovered from LP compared with the NPE group (mean: 5·4 versus 0·6; P = 0·040); this was accompanied by a higher faecal egg output in the former (P = 0·004). The low protein diets resulted in lower pig body weight gains, serum albumin, haemoglobin and packed cell volume (PCV) levels as well as diminished peripheral eosinophil counts. Infection significantly altered these parameters in the low protein groups, i.e. the pathophysiological consequences of infection were more severe in the PEM pigs. These results demonstrate that reduced protein in the diet leads to malnourishment of both the host pigs and T. suis, and compromises the pig's ability to resist infection by T. suis and A. suum.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Fernandez-de-Mera, Isabel G. Gortazar, Christian Vicente, Joaquin Höfle, Ursula and Fierro, Yolanda 2003. Wild boar helminths: risks in animal translocations. Veterinary Parasitology, Vol. 115, Issue. 4, p. 335.

Chu, Daniel Bungiro, Richard D. Ibanez, Maureen Harrison, Lisa M. Campodonico, Eva Jones, Brian F. Mieszczanek, Juliusz Kuzmic, Petr and Cappello, Michael 2004. Molecular Characterization ofAncylostoma ceylanicumKunitz-Type Serine Protease Inhibitor: Evidence for a Role in Hookworm-Associated Growth Delay. Infection and Immunity, Vol. 72, Issue. 4, p. 2214.

LOGAN, A. RUIZ-GONZÁLEZ, M. X. and BROWN, M. J. F. 2005. The impact of host starvation on parasite development and population dynamics in an intestinal trypanosome parasite of bumble bees. Parasitology, Vol. 130, Issue. 6, p. 637.

Pozio, Edoardo and Darwin Murrell, K. 2006. Advances in Parasitology Volume 63. Vol. 63, Issue. , p. 367.

Geiger, S.M. 2008. Immuno-epidemiology of Schistosoma mansoni infections in endemic populations co-infected with soil-transmitted helminths: Present knowledge, challenges, and the need for further studies. Acta Tropica, Vol. 108, Issue. 2-3, p. 118.

NEJSUM, P. THAMSBORG, S. M. PETERSEN, H. H. KRINGEL, H. FREDHOLM, M. and ROEPSTORFF, A. 2009. Population dynamics ofTrichuris suisin trickle-infected pigs. Parasitology, Vol. 136, Issue. 6, p. 691.

Pittman, Jeremy Shepherd, Gene Thacker, Brad and Myers, Gil 2010. Trichuris suis in finishing pigs: Case report and review. Journal of Swine Health and Production, Vol. 18, Issue. 6, p. 306.

Athanasiadou, Spiridoula and Houdijk, Jos G. M. 2010. Dietary Components and Immune Function. p. 63.

Jones, L.A. Houdijk, J.G.M. Sakkas, P. Bruce, A.D. Mitchell, M. Knox, D.P. and Kyriazakis, I. 2011. Dissecting the impact of protein versus energy host nutrition on the expression of immunity to gastrointestinal parasites during lactation. International Journal for Parasitology, Vol. 41, Issue. 7, p. 711.

Kipper, Marcos Andretta, Ines Monteiro, Silvia Gonzalez Lovatto, Paulo Alberto and Lehnen, Cheila Roberta 2011. Meta-analysis of the effects of endoparasites on pig performance. Veterinary Parasitology, Vol. 181, Issue. 2-4, p. 316.

Obanda, V. Iwaki, T. Mutinda, N.M. and Gakuya, F. 2011. Gastrointestinal Parasites and Associated Pathological Lesions in Starving Free-Ranging African Elephants. South African Journal of Wildlife Research, Vol. 41, Issue. 2, p. 167.

Jensen, A.N. Mejer, H. Mølbak, L. Langkjær, M. Jensen, T.K. Angen, Ø. Martinussen, T. Klitgaard, K. Baggesen, D.L. Thamsborg, S.M. and Roepstorff, A. 2011. The effect of a diet with fructan-rich chicory roots on intestinal helminths and microbiota with special focus on Bifidobacteria and Campylobacter in piglets around weaning. Animal, Vol. 5, Issue. 6, p. 851.

Nissen, Sofie Al-Jubury, Azmi Hansen, Tina V.A. Olsen, Annette Christensen, Henrik Thamsborg, Stig M. and Nejsum, Peter 2012. Genetic analysis of Trichuris suis and Trichuris trichiura recovered from humans and pigs in a sympatric setting in Uganda. Veterinary Parasitology, Vol. 188, Issue. 1-2, p. 68.

Houdijk, Jos G.M. 2012. Differential effects of protein and energy scarcity on resistance to nematode parasites. Small Ruminant Research, Vol. 103, Issue. 1, p. 41.

Papier, K. Williams, G. M. Luceres-Catubig, R. Ahmed, F. Olveda, R. M. McManus, D. P. Chy, D. Chau, T. N. P. Gray, D. J. and Ross, A. G. P. 2014. Childhood Malnutrition and Parasitic Helminth Interactions. Clinical Infectious Diseases, Vol. 59, Issue. 2, p. 234.

Cutillas, Cristina de Rojas, Manuel Zurita, Antonio Oliveros, Rocío and Callejón, Rocío 2014. Trichuris colobae n. sp. (Nematoda: Trichuridae), a new species of Trichuris from Colobus guereza kikuyensis. Parasitology Research, Vol. 113, Issue. 7, p. 2725.

Foerster, Steffen Kithome, Kiio Cords, Marina and Monfort, Steven L. 2015. Social status and helminth infections in female forest guenons (Cercopithecus mitis). American Journal of Physical Anthropology, Vol. 158, Issue. 1, p. 55.

Bertoni, Giuseppe Trevisi, Erminio Houdijk, Jos Calamari, Luigi and Athanasiadou, Spiridoula 2016. Nutrition and the Welfare of Farm Animals. Vol. 16, Issue. , p. 85.

Collas, C. Sallé, G. Dumont, B. Cabaret, J. Cortet, J. Martin-Rosset, W. Wimel, L. and Fleurance, G. 2018. Are sainfoin or protein supplements alternatives to control small strongyle infection in horses?. Animal, Vol. 12, Issue. 2, p. 359.

Vandekerckhove, Elise Vlaminck, Johnny Sacristán, Rubén del Pozo and Geldhof, Peter 2019. Effect of strategic deworming on Ascaris suum exposure and technical performance parameters in fattening pigs. Veterinary Parasitology, Vol. 268, Issue. , p. 67.

Download full list

Article contents

Impact of protein energy malnutrition on Trichuris suis infection in pigs concomitantly infected with Ascaris suum

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Impact of protein energy malnutrition on Trichuris suis infection in pigs concomitantly infected with Ascaris suum

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests