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}

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}

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  year={2016},
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}

@article{lembo2010feasibility,
  title={The feasibility of canine rabies elimination in {Africa}: dispelling doubts with data},
  author={Lembo, Tiziana and Hampson, Katie and Kaare, Magai T and Ernest, Eblate and Knobel, Darryn and Kazwala, Rudovick R and Haydon, Daniel T and Cleaveland, Sarah},
  journal={PLoS Neglected Tropical Diseases},
  volume={4},
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}

@article{cleaveland2018proof,
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  volume={37},
  number={2},
  pages={559--568},
  year={2018}
}

@article{mtema2016mobile,
  title={Mobile phones as surveillance tools: implementing and evaluating a large-scale intersectoral surveillance system for rabies in {Tanzania}},
  author={Mtema, Zacharia and Changalucha, Joel and Cleaveland, Sarah and Elias, Martin and Ferguson, Heather M and Halliday, Jo EB and Haydon, Daniel T and Jaswant, Gurdeep and Kazwala, Rudovick and Killeen, Gerry F and others},
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  year={2016},
  publisher={Public Library of Science}
}

@article{ferguson2015heterogeneity,
  title={Heterogeneity in the spread and control of infectious disease: consequences for the elimination of canine rabies},
  author={Ferguson, Elaine A and Hampson, Katie and Cleaveland, Sarah and Consunji, Ramona and Deray, Raffy and Friar, John and Haydon, Daniel T and Jimenez, Joji and Pancipane, Marlon and Townsend, Sunny E},
  journal={Scientific reports},
  volume={5},
  pages={18232},
  year={2015},
  publisher={Nature Publishing Group}
}

@article{castillo2017barriers,
  title={Barriers to dog rabies vaccination during an urban rabies outbreak: Qualitative findings from {Arequipa}, {Peru}},
  author={Castillo-Neyra, Ricardo and Brown, Joanna and Borrini, Katty and Arevalo, Claudia and Levy, Michael Z and Buttenheim, Alison and Hunter, Gabrielle C and Becerra, Victor and Behrman, Jere and Paz-Soldan, Valerie A},
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  year={2017},
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}

@article{kwoba2019dog,
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}

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}

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}

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  number={13},
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  publisher={PAMJ-African Field Epidemiology Network}
}

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}

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}

@article{krebs1995rabies,
  title={Rabies—epidemiology, prevention, and future research},
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@article{bingham2005canine,
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  volume={11},
  number={9},
  pages={1337},
  year={2005},
  publisher={Centers for Disease Control and Prevention}
}

@article{windiyaningsih2004rabies,
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}

@article{hampson2008rabies,
  title={Rabies exposures, post-exposure prophylaxis and deaths in a region of endemic canine rabies},
  author={Hampson, Katie and Dobson, Andy and Kaare, Magai and Dushoff, Jonathan and Magoto, Matthias and Sindoya, Emmanuel and Cleaveland, Sarah},
  journal={PLoS Neglected Tropical Diseases},
  volume={2},
  number={11},
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  year={2008},
  publisher={Public Library of Science}
}




@article{mariner2005model,
	title = {A model of lineage-1 and lineage-2 rinderpest virus transmission in pastoral areas of {East} {Africa}},
	volume = {69},
	issn = {0167-5877},
	url = {http://www.sciencedirect.com/science/article/pii/S0167587705000693},
	doi = {10.1016/j.prevetmed.2005.02.001},
	abstract = {The development of a stochastic, state-transition model of rinderpest transmission dynamics is described using parameter estimates obtained from both laboratory and participatory research. Using serological data, the basic reproduction numbers for lineage-1 rinderpest virus in southern Sudan and for lineage-2 rinderpest virus in Somali livestock were estimated as 4.4 and between 1.2 and 1.9, respectively. The model predictions for the inter-epidemic period in Sudan and Somalia (1.2 and 4.2 years, respectively) were in agreement with analysis of livestock-owner reports (1–2 years and 5 years, respectively).},
	number = {3},
	urldate = {2019-08-27},
	journal = {Preventive Veterinary Medicine},
	author = {Mariner, J. C. and McDermott, J. and Heesterbeek, J. A. P. and Catley, A. and Roeder, P.},
	month = jul,
	year = {2005},
	keywords = {Basic reproduction number, Modelling, Participatory epidemiology, Policy-making, Rinderpest, State-transition model},
	pages = {245--263}
}

@article{kitala2002comparison,
  title={Comparison of vaccination strategies for the control of dog rabies in {Machakos} {District}, {Kenya}},
  author={Kitala, PM and McDermott, John J and Coleman, PG and Dye, C},
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  volume={129},
  number={1},
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  year={2002},
  publisher={Cambridge University Press}
}

@article{gibson2018one,
  title={One million dog vaccinations recorded on {mHealth} innovation used to direct teams in numerous rabies control campaigns},
  author={Gibson, Andrew D and Mazeri, Stella and Lohr, Frederic and Mayer, Dagmar and Bailey, Jordana L Burdon and Wallace, Ryan M and Handel, Ian G and Shervell, Kate and Barend, M and Mellanby, Richard J and others},
  journal={PloS one},
  volume={13},
  number={7},
  pages={e0200942},
  year={2018},
  publisher={Public Library of Science}
}

@article{mazeri2018barriers,
  title={Barriers of attendance to dog rabies static point vaccination clinics in {Blantyre}, {Malawi}},
  author={Mazeri, Stella and Gibson, Andrew D and Meunier, Natascha and Barend, M and Handel, Ian G and Mellanby, Richard J and Gamble, Luke},
  journal={PLoS Neglected Tropical Diseases},
  volume={12},
  number={1},
  pages={e0006159},
  year={2018},
  publisher={Public Library of Science}
}

@article{wallace2015establishment,
  title={Establishment of a canine rabies burden in {Haiti} through the implementation of a novel surveillance program},
  author={Wallace, Ryan M and Reses, Hannah and Franka, Richard and Dilius, Pierre and Fenelon, Natael and Orciari, Lillian and Etheart, Melissa and Destine, Apollon and Crowdis, Kelly and Blanton, Jesse D and others},
  journal={PLoS Neglected Tropical Diseases},
  volume={9},
  number={11},
  pages={e0004245},
  year={2015},
  publisher={Public Library of Science}
}

@article{champredon2015intrinsic,
  title={Intrinsic and realized generation intervals in infectious-disease transmission},
  author={Champredon, David and Dushoff, Jonathan},
  journal={Proceedings of the Royal Society B: Biological Sciences},
  volume={282},
  number={1821},
  pages={20152026},
  year={2015},
  publisher={The Royal Society}
}

@article{chowell2017fitting,
  title={Fitting dynamic models to epidemic outbreaks with quantified uncertainty: A primer for parameter uncertainty, identifiability, and forecasts},
  author={Chowell, Gerardo},
  journal={Infectious Disease Modelling},
  volume={2},
  number={3},
  pages={379--398},
  year={2017},
  publisher={Elsevier}
}

@article{tepsumethanon2005six,
  title={Six criteria for rabies diagnosis in living dogs},
  author={Tepsumethanon, Veera and Wilde, Henry and Meslin, Francois X},
  journal={J Med Assoc Thai},
  volume={88},
  number={3},
  pages={419--22},
  year={2005}
}

@article{castillo2019socio,
  title = {Socio-Spatial Heterogeneity in Participation in Mass Dog Rabies Vaccination Campaigns, {{Arequipa}}, {{Peru}}},
  author = {{Castillo-Neyra}, Ricardo and Toledo, Amparo M. and {Arevalo-Nieto}, Claudia and MacDonald, Hannelore and De la {Puente-Le{\'o}n}, Micaela and {Naquira-Velarde}, Cesar and {Paz-Soldan}, Valerie A. and Buttenheim, Alison M. and Levy, Michael Z.},
  year = {2019},
  month = aug,
  journal = {PLOS Neglected Tropical Diseases},
  volume = {13},
  number = {8},
  pages = {e0007600},
  publisher = {{Public Library of Science}},
  issn = {1935-2735},
  doi = {10.1371/journal.pntd.0007600},
  urldate = {2023-07-29},
  abstract = {To control and prevent rabies in Latin America, mass dog vaccination campaigns (MDVC) are implemented mainly through fixed-location vaccination points: owners have to bring their dogs to the vaccination points where they receive the vaccination free of charge. Dog rabies is still endemic in some Latin-American countries and high overall dog vaccination coverage and even distribution of vaccinated dogs are desired attributes of MDVC to halt rabies virus transmission. In Arequipa, Peru, we conducted a door-to-door post-campaign survey on {$>$}6,000 houses to assess the placement of vaccination points on these two attributes. We found that the odds of participating in the campaign decreased by 16\% for every 100 m from the owner's house to the nearest vaccination point (p = 0.041) after controlling for potential covariates. We found social determinants associated with participating in the MDVC: for each child under 5 in the household, the odds of participating in the MDVC decreased by 13\% (p = 0.032), and for each decade less lived in the area, the odds of participating in the MDVC decreased by 8\% (p{$<$}0.001), after controlling for distance and other covariates. We also found significant spatial clustering of unvaccinated dogs over 500 m from the vaccination points, which created pockets of unvaccinated dogs that may sustain rabies virus transmission. Understanding the barriers to dog owners' participation in community-based dog-vaccination programs will be crucial to implementing effective zoonotic disease preventive activities. Spatial and social elements of urbanization play an important role in coverage of MDVC and should be considered during their planning and evaluation.}
}


@article{evans2019implementation,
  title={Implementation of high coverage mass rabies vaccination in rural {Uganda} using predominantly static point methodology},
  author={Evans, MJ and Bailey, JL Burdon and Lohr, FE and Opira, W and Migadde, M and Gibson, AD and Handel, IG and Bronsvoort, M and Mellanby, RJ and Gamble, L and others},
  journal={The Veterinary Journal},
  volume={249},
  pages={60--66},
  year={2019},
  publisher={Elsevier}
}

@article{gibson2019oral,
  title={Oral bait handout as a method to access roaming dogs for rabies vaccination in {Goa}, {India}},
  author={Gibson, AD and Yale, G and Vos, A and Corfmat, J and Otter, I and King, I and Wallace, R and Gamble, L and Handel, I and Mellanby, R},
  journal={Vaccine},
  volume={10},
  number={1},
  pages={100015},
  year={2019}
}

@article{harischandra2016sri,
  title={Sri Lanka takes action towards a target of zero rabies death by 2020},
  author={Harischandra, PA Lionel and Gunesekera, Amila and Janakan, Navaratnasingam and Gongal, Gyanendra and Abela-Ridder, Bernadette and others},
  journal={WHO South-East Asia journal of public health},
  volume={5},
  number={2},
  pages={113},
  year={2016},
  publisher={Medknow Publications}
}

@article{taylor2017difficulties,
  title={Difficulties in estimating the human burden of canine rabies},
  author={Taylor, Louise H and Hampson, Katie and Fahrion, Anna and Abela-Ridder, Bernadette and Nel, Louis H},
  journal={Acta Tropica},
  volume={165},
  pages={133--140},
  year={2017},
  publisher={Elsevier}
}

@Manual{epigrowthfit,
    title = {epigrowthfit: Nonlinear Mixed Effects Models of Epidemic Growth},
    author = {Mikael Jagan and Ben Bolker and Jonathan Dushoff and David Earn and Junling Ma},
    year = {2024},
    note = {R package version 0.15.0},
    url = {https://github.com/davidearn/epigrowthfit},
  }

@article{nadal2022impact,
  title={The impact of the first year of the COVID-19 pandemic on canine rabies control efforts: a mixed-methods study of observations about the present and lessons for the future},
  author={Nadal, Deborah and Abela-Ridder, Bernadette and Beeching, Sarah and Cleaveland, Sarah and Cronin, Katy and Steenson, Rachel and Hampson, Katie},
  journal={Frontiers in Tropical Diseases},
  volume={3},
  pages={866811},
  year={2022},
  publisher={Frontiers}
}