See my Google Scholar profile

2020
[58]Quantifying the annual incidence and underestimation of seasonal influenza: A modelling approach. (, , , , , , , , , , , , , , , , , , , , , , , and ), In Theoretical Biology & Medical Modelling, volume 17, . [bibtex] [doi]
[57]Effect of media-induced modification of travel rates on disease transmission in a two patch setting (, and ), . [bibtex]
[56] Modelling scenarios of the epidemic of COVID-19 in Canada (, , , , , , , , , , and ), In Can Commun Dis Rep, volume 46, . [bibtex] [pdf] [doi]
[55] A simple model for COVID-19 ( and ), In Infectious Disease Modelling, . [bibtex] [url]
[54]Review of 'Dynamical System Models in the Life Sciences and Their Underlying Scientific Issues, by Y. M. Wan' (), In SIAM Review, volume 62, . [bibtex] [doi]
[53] Mathematical epidemiology in a data-rich world (), In Infectious Disease Modelling, volume 5, . [bibtex] [url]
2019
[52] Current Trends in Mathematical Epidemiology ( and ), In Bulletin of Mathematical Biology, volume 81, . [bibtex] [url] [doi]
[51] Special Issue: Mathematical Epidemiology, (Arino, J., Watmough, J., eds.), volume 81, . [bibtex] [url]
[50] Number of source patches required for population persistence in a source-sink metapopulation (, and ), In Bulletin of Mathematical Biology, volume 81, . [bibtex] [url] [doi]
2017
[49] Intermediate filament dynamics: disassembly regulation (, and ), In International Journal of Biomathematics, volume 10, . [bibtex] [url] [doi]
[48] Spatio-temporal spread of infectious pathogens of humans (), In Infectious Disease Modelling, volume 2, . [bibtex] [url] [doi]
2016
[47] Toward Standardizing a Lexicon of Infectious Disease Modeling Terms (, , , , , , , , , and ), In Frontiers in Public Health, volume 4, . [bibtex] [url] [doi]
[46] Revisiting a two-patch SIS model with infection during transport (, and ), In Mathematical Medicine and Biology, volume 33, . [bibtex] [pdf] [doi]
2015
[45] A model for the spread of tuberculosis with drug-sensitive and emerging multidrug-resistant and extensively drug resistant strains ( and ), Chapter in Mathematical and Computational Modelling (Melnick, R., ed.), John Wiley & Sons, Inc., . [bibtex] [pdf] [doi]
[44] Epidemiological implications of mobility between a large urban centre and smaller satellite cities ( and ), In Journal of Mathematical Biology, volume 71, . [bibtex] [pdf] [doi]
2014
[43] Using mathematical modelling to integrate disease surveillance and global air transportation data ( and ), Chapter in Analyzing and Modeling Spatial and Temporal Dynamics of Infectious Diseases (Chen, D., Moulin, B., Wu, J., eds.), John Wiley & Sons, Inc., . [bibtex] [pdf] [doi]
2013
[42] Entry and exit screening of airline travellers during the A(H1N1) 2009 pandemic: a retrospective evaluation (, , , , , , , , , , and ), In Bulletin of the World Health Organization, volume 91, . [bibtex] [pdf]
[41] Impact of viral mutation on suppression of infection by cytotoxic T lymphocytes (, , and ), In Canadian Applied Math Quarterly, volume 21, . [bibtex] [pdf]
[40] Quelques notions d'épidémiologie mathématique (), In Bulletin de l'AMQ, volume 53, . [bibtex] [pdf]
2012
[39] Infectious disease surveillance and modelling across geographic frontiers and scientific specialties (, , , , , , , , , , , , and ), In The Lancet Infectious Diseases, volume 12, . [bibtex] [pdf] [doi]
[38] Mathematical Modelling of Natural Phenomena (Epidemiology), (Arino, J., Milner, F., Petrovskii, S., Ruan, S., Stollenwek, N., Venturino, E., eds.), volume 7, . [bibtex] [url]
[37] Some methodological aspects involved in the study by the Bio.Diaspora Project of the spread of infectious diseases along the global air transportation network (, , , and ), In Canadian Applied Mathematics Quarterly, volume 19, . [bibtex] [pdf]
[36] A metapopulation model for malaria with transmission-blocking partial immunity in hosts (, and ), In Journal of Mathematical Biology, volume 64, . [bibtex] [pdf] [doi]
2011
[35] Effect of media-induced social distancing on disease transmission in a two patch setting (, , and ), In Mathematical Biosciences, volume 230, . [bibtex] [pdf] [doi]
[34] Competitive interference between influenza viral strains (, and ), In Canadian Applied Mathematics Quarterly, volume 17, . [bibtex] [pdf]
[33] Evaluation of vaccination strategies during pandemic outbreaks (, and ), In Mathematical Biosciences and Engineering, volume 8, . [bibtex] [pdf] [doi]
[32] Pandemic influenza: modelling and public health perspectives (, , , , , , , , , , , and ), In Mathematical Biosciences and Engineering, volume 8, . [bibtex] [pdf] [doi]
2010
[31] Global analysis for a general epidemiological model with vaccination and varying population (, and ), In Journal of Mathematical Analysis and Applications, volume 372, . [bibtex] [pdf] [doi]
[30] Global public health implications of a mass gathering in Mecca, Saudi Arabia during the midst of an influenza pandemic (, , , , , , , , , , , , , , and ), In Journal of Travel Medicine, volume 17, . [bibtex] [pdf] [doi]
[29] Strategies for use of Oseltamivir and Zanamivir during pandemic outbreaks (, , , and ), In Canadian Journal of Infectious Diseases & Medical Microbiology, volume 21, . [bibtex] [url]
[28] Effect of a sharp change of the incidence function on the dynamics of a simple disease ( and ), In Journal of Biological Dynamics, volume 4, . [bibtex] [pdf] [doi]
2009
[27] An in vivo intermediate filament assembly model ( and ), In Mathematical Biosciences and Engineering, volume 6, . [bibtex] [pdf] [doi]
[26] Spread of a novel influenza A (H1N1) virus via global airline transportation (, , , , , , , , , and ), In New England Journal of Medicine, volume 361, . [bibtex] [url] [doi] [citations]
[25] An analysis of Canada's vulnerability to emerging infectious disease threats via the global airline transportation network (, , , , , , , , , , and ), Technical report, Bio.Diaspora Project, St Michael's Hospital, Toronto, Ontario, Canada, . [bibtex] [pdf]
[24] Editorial ( and ), In Proceedings of the Second International Conference of the French-speaking Society for Theoretical Biology (Winnipeg, Manitoba, Canada, 4-6 June, 2007). Acta Biotheoretica, volume 57, . [bibtex] [pdf] [doi]
[23] Proceedings of the Second International Conference of the French-speaking Society for Theoretical Biology (Winnipeg, Manitoba, Canada, 4-6 June, 2007), (Arino, J., Portet, S., eds.), volume 57, . [bibtex] [url]
[22] Antiviral resistance during pandemic influenza: implications for stockpiling and drug use (, and ), In BMC Infectious Diseases, volume 9, . [bibtex] [pdf] [doi]
[21] Diseases in metapopulations (), In Modeling and Dynamics of Infectious Diseases (Ma, Z., Zhou, Y., Wu, J., eds.), World Scientific, volume 11, . [bibtex] [pdf]
2008
[20] A model for influenza with vaccination and antiviral treatment (, , , and ), In Journal of Theoretical Biology, volume 253, . [bibtex] [pdf] [doi]
2007
[19] Quarantine in a multi-species epidemic model with spatial dynamics (, and ), In Mathematical Biosciences, volume 206, . [bibtex] [pdf] [doi]
[18] Effect of pathogen-resistant vectors on the transmission dynamics of a vector-borne disease (, , and ), In Journal of Biological Dynamics, volume 1, . [bibtex] [url] [doi]
[17] A final size relation for epidemic models (, , , and ), In Mathematical Biosciences and Engineering, volume 4, . [bibtex] [pdf]
2006
[16] An alternative formulation for a delayed logistic equation. (, and ), In Journal of Theoretical Biology, volume 241, . [bibtex] [pdf] [doi]
[15] Time delays in epidemic models: modeling and numerical considerations ( and ), In Delay Differential Equations and Applications, Springer Verlag, . [bibtex] [pdf] [doi]
[14] Metapopulations epidemic models. A survey ( and ), In Fields Institute Communications, volume 48, . [bibtex] [pdf]
[13]Delay Differential Equations and Applications, In (Arino, O., Hbid, M.L., Ait Dads, E., eds.), Springer Verlag, . [bibtex] [doi]
[12] Simple models for containment of a pandemic (, , , and ), In Journal of the Royal Society Interface, volume 3, . [bibtex] [url] [doi]
2005
[11] A multi-species epidemic model with spatial migration (, , , , and ), In Mathematical Medicine and Biology, volume 22, . [bibtex] [url] [doi]
[10] Considerations on yield, nutrient uptake, cellular growth, and competition in chemostat models (, and ), In Canadian Applied Mathematics Quarterly, volume 11, . [bibtex] [pdf]
2004
[9] Intermediate filament network organization: in vitro and in vivo kinetic models (, , , and ), In Comptes Rendus: Biologies, volume 327, . [bibtex] [pdf] [doi]
[8] An epidemiology model that includes a leaky vaccine with a general waning function (, , and ), In DCDS-B, volume 4, . [bibtex] [pdf]
2003
[7] The basic reproduction number in a multi-city compartmental epidemic model ( and ), In Lecture Notes in Control and Information Science, volume 294, . [bibtex] [pdf] [doi]
[6] A multi-city epidemic model ( and ), In Mathematical Population Studies, volume 10, . [bibtex] [pdf] [doi] [citations]
[5] Global results for an epidemic model with vaccination that exhibits backward bifurcation (, and ), In SIAM J. Appl. Math., volume 64, . [bibtex] [pdf] [doi] [citations]
2002
[4] A discrete, size-structured model of phytoplankton growth in the chemostat. Introduction of inhomogeneous cell division size (, and ), In Journal of Mathematical Biology, volume 45, . [bibtex] [pdf] [doi]
[3] A size-structured, non conservative ODE model of the chemostat ( and ), In Mathematical Biosciences, volume 177&178, . [bibtex] [pdf] [doi]
2001
[2] Modélisation structurée de la croissance du phytoplancton en chemostat (), PhD thesis, Université Grenoble 1, . [bibtex] [pdf]
2000
[1] A discrete, size-structured model of phytoplankton growth in the chemostat. Introduction of non constant cell division (, and ), Technical report 3963, INRIA, . [bibtex] [pdf]