. 2025 Jun 4:27:101098.

doi: 10.1016/j.ijppaw.2025.101098. eCollection 2025 Aug.

Efficiency of anthelmintic treatment and its effect on microparasite dynamics in wild Mastomys natalensis

Marre van de Ven¹, Bram Vanden Broecke^{1

2}, Alexis Ribas³, Herwig Leirs¹, Christopher Sabuni⁴, Joachim Mariën^{1

5}

Affiliations

¹ Evolutionary Ecology Group (EVECO), Department of Biology, University of Antwerp, Wilrijk, Belgium.
² Centre for Research on Ecology, Cognition, and Behaviour of Birds (ECoBird), Department of Biology, Ghent University, Ghent, Belgium.
³ Parasitology Section, Department of Biology, Healthcare and Environment, Faculty of Pharmacy and Food Science, Institut de Recerca de la Biodiversitat (IRBio), University of Barcelona, Barcelona, Spain.
⁴ Institute of Pest Management, Sokoine University of Agriculture, Morogoro, Tanzania.
⁵ Virus Ecology Unit, Department of Biomedical Sciences, Institute of Tropical Medicine, Antwerp, Belgium.

PMID: 40606265
PMCID: PMC12213097
DOI: 10.1016/j.ijppaw.2025.101098

Efficiency of anthelmintic treatment and its effect on microparasite dynamics in wild Mastomys natalensis

Marre van de Ven et al. Int J Parasitol Parasites Wildl. 2025.

. 2025 Jun 4:27:101098.

doi: 10.1016/j.ijppaw.2025.101098. eCollection 2025 Aug.

Authors

Marre van de Ven¹, Bram Vanden Broecke^{1

2}, Alexis Ribas³, Herwig Leirs¹, Christopher Sabuni⁴, Joachim Mariën^{1

5}

Affiliations

¹ Evolutionary Ecology Group (EVECO), Department of Biology, University of Antwerp, Wilrijk, Belgium.
² Centre for Research on Ecology, Cognition, and Behaviour of Birds (ECoBird), Department of Biology, Ghent University, Ghent, Belgium.
³ Parasitology Section, Department of Biology, Healthcare and Environment, Faculty of Pharmacy and Food Science, Institut de Recerca de la Biodiversitat (IRBio), University of Barcelona, Barcelona, Spain.
⁴ Institute of Pest Management, Sokoine University of Agriculture, Morogoro, Tanzania.
⁵ Virus Ecology Unit, Department of Biomedical Sciences, Institute of Tropical Medicine, Antwerp, Belgium.

PMID: 40606265
PMCID: PMC12213097
DOI: 10.1016/j.ijppaw.2025.101098

Abstract

Co-infections between helminths and microparasites can modulate the host immune response and alter disease dynamics, with potential implications for public health. However, identifying causal relationships in natural populations is challenging due to the complexity of ecological interactions. Perturbation experiments, where a specific parasite is selectively reduced, offers a powerful framework to directly test such interactions under natural conditions. In this study, we investigated potential helminth-microparasite interactions in the multimammate mouse (Mastomys natalensis) in Tanzania by experimentally reducing helminth infections in both captive and wild populations. We first confirmed that two anthelmintic treatments, ivermectin and pyrantel pamoate, effectively reduced gastrointestinal nematode burdens in wild-caught individuals. We then assessed whether helminth reduction influenced the prevalence of viral and bacterial infections in free-living populations. Our results revealed no significant short-term effect of anthelmintic treatment on microparasitic infections. These findings suggest that helminth-microparasite interactions in M. natalensis may be subtle, context-dependent, or require longer timescales to become apparent.

Keywords: Bartonella; Co-infection; Helminth-microparasite interaction; Ivermectin; Morogoro virus; Pyrantel pamoate; Wild rodent population.

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Conflict of interest statement

All authors declare that there is no conflict of interest.

Figures

**Fig. 1**
**(A)** Prevalence of nematodes and cestodes, and **(B)** predicted probability of *Trichuris mastomysi* infection in *Mastomys natalensis* across treatment groups (control, ivermectin and pyrantel pamoate), with 95 % confidence intervals.

**Fig. 2**
**(A)** Predicted probability of Morogoro virus (MORV) seroconversion by treatment group and **(B)***Bartonella* infection over time (weeks) for each treatment group (control, ivermectin and pyrantel pamoate) in a wild *Mastomys natalensis* population. Error bars represent 95 % confidence intervals and dashed lines indicate linear trends.

**Fig. 3**
Phylogenetic relationship of *Bartonella* sequences identified in this study. A Neighbor-Joining tree was constructed using the Tamura-Nei model based on ITS gene sequences, with reference sequences from previously identified *Bartonella* isolates in rodents and recognized *Bartonella* species. Bootstrap support values above 70 % are shown (1000 replicates). Subgroups were defined based on a 93.9 % similarity cut-off (La Scola et al., 2003). The scale bar represents 0.1 nucleotide substitutions per site. The representative sequences of each genogroup have been submitted to GenBank under the following accession numbers: Genogroup A – PV788829, B – PV788832, C – PV788831, D1 – PV788828, D2 – PV788830, D3 – PV788833, and D4 – PV788834.

**Fig. 4**
Visualization of individual *Bartonella* infection patterns across 10 sampling time points for each treatment group (control, ivermectin and pyrantel pamoate) in wild *Mastomys natalensis* populations. Rasters display the infection status (positive with respective genogroup, negative or no sample) for each individual at each time point.

See this image and copyright information in PMC

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Efficiency of anthelmintic treatment and its effect on microparasite dynamics in wild Mastomys natalensis

Affiliations

Efficiency of anthelmintic treatment and its effect on microparasite dynamics in wild Mastomys natalensis

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Abstract

Conflict of interest statement

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Abstract

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