Patrick Leighton
- Professeur agrégé
-
Faculté de médecine vétérinaire - Département de pathologie et microbiologie
3190, rue Sicotte - Pavillon de santé publique vétérinaire local 2209-18
Travail 1 : 450 773-8521 #0139
Affiliations
- Membre – GREZOSP — Groupe de recherche en épidémiologie des zoonoses et santé publique
- Membre – CReSP — Centre de recherche en santé publique
Expertises
- Parasitologie
Encadrement Tout déplier Tout replier
Cycle : Maîtrise
Diplôme obtenu : M. Sc.
Projets de recherche Tout déplier Tout replier
Mitigating Illness and Raising Wellness at the Human-Dog Interface in Northern Canada Projet de recherche au Canada / 2017 - 2023
Arctic One Health Network / ArcticNet Research Funds (NCE) Projet de recherche au Canada / 2019 - 2022
A National Research Network in Lyme Disease - Transfert Queen's University Projet de recherche au Canada / 2019 - 2022
FUNCTIONAL LANDSCAPE CONNECTIVITY AND THE DYNAMICS OF PARASITE INVASION Projet de recherche au Canada / 2014 - 2022
The Arctic Zoonoses Network: a community-centered monitoring network for vector-borne diseases and wildlife zoonoses in a changing Arctic Projet de recherche au Canada / 2017 - 2020
Rabies ready: modelling the future of arctic fox rabies dynamics associated risk management Projet de recherche au Canada / 2017 - 2020
Sarolaner treatment of wild rodents: Breaking new ground in the fight against Lyme disease Projet de recherche au Canada / 2018 - 2019
Wildlife diseases important for human health and food safety in the changing environment of the Eastern Subarctic Projet de recherche au Canada / 2015 - 2019
Wildlifes diseases important for human health and food safety in the changing environment of the Eastern Subarctic Projet de recherche au Canada / 2015 - 2019
Wildlife diseases important for human health and food safety in the changing environment of the Eastern Subarctic Projet de recherche au Canada / 2015 - 2019
Recherche / Action sur la santé et le bien-être des Inuits à l'interface Inuit - chien - environnement Projet de recherche au Canada / 2017 - 2018
Évaluation d'un nouveau traitement acaricide oral chez les micromammifères comme une intervention locale pour réduire le risque de la maladie de Lyme au Québec Projet de recherche au Canada / 2016 - 2017
Modélisation de la rage au Nunavik dans le contexte des changements climatiques Projet de recherche au Canada / 2015 - 2017
Déterminants de la réémergence des zoonoses vectorielles transmises par les moustiques dans le sud du Québec - cas du virus du Nil occidental Projet de recherche au Canada / 2015 - 2017
BALANCING ILLNESS AND WELLNESS AT THE INUIT-DOG INTERFACE : PROPOSAL FOR A COMMUNITY-BASED RESEARCH-ACTION IN NUNAVIK Projet de recherche au Canada / 2014 - 2017
Publications Tout déplier Tout replier
Gabriele-Rivet V., N. H. Ogden, A. Massé, K. Antonation, C. Corbett, A. Dibernardo, L.R. Lindsay, P. A. Leighton, and J. Arsenault. 2016. Eco-epizootiologic study of Francisella tularensis, the agent of Tularemia, in Québec wildlife. Journal of Wildlife Diseases. 52(2), 217-229.
Ogden N. H., E. Feil, P. A. Leighton, L. R. Lindsay, G. Margos, S. Mechai, P. Michel, and T. Moriarty. 2015. Evolutionary Aspects of Emerging Lyme Disease in Canada. Applied and environmental microbiology. 81(21): 7350-7359.
Rhynd, K. J. R., P. A Leighton, D. A. Elcock, P. J. Whitehall, A. Rycroft, & S. K. Macgregor. 2014. Prevalence of Salmonella spp. and Thermophilic Campylobacter spp. in the Small Asian Mongoose (Herpestes javanicus) in Barbados West Indies. Journal of Zoo and Wildlife Medicine, 45(4), 911-914.
Ogden, N. H., M. Radojević, X. Wu, V. R. Duvvuri, P. A. Leighton, and J. Wu. 2014. Significant effects of projected climate change on the basic reproductive number of the Lyme disease vector. Environmental Health Perspectives 122:631-638.
Simon, J. A., R. R. Marrotte, N. Desrosiers, J. Fiset, J. Gaitan, A. Gonzalez, J. K. Koffi, F.-J. Lapointe, P. A. Leighton, L. R. Lindsay, T. Logan, F. Milord, N. H. Ogden, *A. Rogic, *E. Roy-Dufresne, D. Suter, N. Tessier, and V. Millien. 2014. Climate change and habitat fragmentation drive the occurrence of Borrelia burgdorferi, the agent of Lyme disease, at the northeastern limit of its distribution. Evolutionary Applications: doi: 10.1111/eva.12165.
Werden, L., I. K. Barker, J. Bowman, E. K. Gonzales, P. A. Leighton, L. R. Lindsay, and C. M. Jardine. 2014. Geography, deer, and host biodiversity shape the pattern of Lyme disease emergence in the Thousand Islands archipelago of Ontario, Canada. PLOS ONE 9:1-14.
Bouchard, C., G. Beauchamp, P. A. Leighton, L. R. Lindsay, D. Bélanger, and N. H. Ogden. 2013. Does high biodiversity reduce the risk of Lyme disease invasion? Parasites & Vectors 6:1-10.
Ogden, N. H., Lindsay, L. R., & Leighton, P. A. (2013). Predicting the rate of invasion of the agent of Lyme disease Borrelia burgdorferi. Journal of Applied Ecology, 50(2), 510-518.
Bouchard, C., P. A. Leighton, G. Beauchamp, S. Nguon, L. Trudel, F. Milord, L. R. Lindsay, D. Bélanger, and N. H. Ogden. 2013. Harvested white-tailed deer as sentinel hosts for early establishing Ixodes scapularis populations and risk from vector-borne zoonoses in southeastern Canada. Journal of Medical Entomology 50:384-393.
Koffi, J. K., P. A. Leighton, Y. Pelcat, L. Trudel, L. R. Lindsay, F. Milord, and N. H. Ogden. 2012. Passive surveillance for I. scapularis ticks: enhanced analysis for early detection of emerging Lyme disease risk. Journal of Medical Entomology 49:400-409.
Leighton, P. A., J. K. Koffi, Y. Pelcat, L. R. Lindsay, and N. H. Ogden. 2012. Predicting the speed of tick invasion: an empirical model of range expansion for the Lyme disease vector Ixodes scapularis in Canada. Journal of Applied Ecology 49:457–464.
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