Rachel Busselman


Curriculum vitae



Ecology and Evolutionary Biology

Texas A&M University

Ecology and Evolutionary Biology
School of Veterinary Medicine
Department of Veterinary Integrative Biosciences



Effectiveness of fluralaner treatment regimens for the control of canine Chagas disease: A mathematical modeling study


Journal article


Edem Fiatsonu, Rachel E. Busselman, G. Hamer, S. Hamer, M. Ndeffo-Mbah
PLoS Neglected Tropical Diseases, 2023

Semantic Scholar DOI PubMedCentral PubMed
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APA   Click to copy
Fiatsonu, E., Busselman, R. E., Hamer, G., Hamer, S., & Ndeffo-Mbah, M. (2023). Effectiveness of fluralaner treatment regimens for the control of canine Chagas disease: A mathematical modeling study. PLoS Neglected Tropical Diseases.


Chicago/Turabian   Click to copy
Fiatsonu, Edem, Rachel E. Busselman, G. Hamer, S. Hamer, and M. Ndeffo-Mbah. “Effectiveness of Fluralaner Treatment Regimens for the Control of Canine Chagas Disease: A Mathematical Modeling Study.” PLoS Neglected Tropical Diseases (2023).


MLA   Click to copy
Fiatsonu, Edem, et al. “Effectiveness of Fluralaner Treatment Regimens for the Control of Canine Chagas Disease: A Mathematical Modeling Study.” PLoS Neglected Tropical Diseases, 2023.


BibTeX   Click to copy

@article{edem2023a,
  title = {Effectiveness of fluralaner treatment regimens for the control of canine Chagas disease: A mathematical modeling study},
  year = {2023},
  journal = {PLoS Neglected Tropical Diseases},
  author = {Fiatsonu, Edem and Busselman, Rachel E. and Hamer, G. and Hamer, S. and Ndeffo-Mbah, M.}
}

Abstract

Background Canine Chagas disease is caused by the protozoan parasite Trypanosoma cruzi and transmitted by insect triatomine vectors known as kissing bugs. The agent can cause cardiac damage and long-term heart disease and death in humans, dogs, and other mammals. In laboratory settings, treatment of dogs with systemic insecticides has been shown to be highly efficacious at killing triatomines that feed on treated dogs. Method We developed compartmental vector-host models of T. cruzi transmission between the triatomine and dog population accounting for the impact of seasonality and triatomine migration on disease transmission dynamics. We considered a single vector-host model without seasonality, and model with seasonality, and a spatially coupled model. We used the models to evaluate the effectiveness of the insecticide fluralaner with different durations of treatment regimens for reducing T. cruzi infection in different transmission settings. Results In low and medium transmission settings, our model showed a marginal difference between the 3-month and 6-month regimens for reducing T. cruzi infection among dogs. The difference increases in the presence of seasonality and triatomine migration from a sylvatic transmission setting. In high transmission settings, the 3-month regimen was substantially more effective in reducing T. cruzi infections in dogs than the other regimens. Our model showed that increased migration rate reduces fluralaner effectiveness in all treatment regimens, but the relative reduction in effectiveness is minimal during the first years of treatment. However, if an additional 10% or more of triatomines killed by dog treatment were eaten by dogs, treatment could increase T. cruzi infections in the dog population at least during the first year of treatment. Conclusion Our analysis shows that treating all peridomestic dogs every three to six months for at least five years could be an effective measure to reduce T. cruzi infections in dogs and triatomines in peridomestic transmission settings. However, further studies at the local scale are needed to better understand the potential impact of routine use of fluralaner treatment on increasing dogs’ consumption of dead triatomines.


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