Effect of temperature and relative humidity on the development times and survival of Synopsyllus fonquerniei and Xenopsylla cheopis, the flea vectors of plague in Madagascar

Acknowledgements We would like to thank Dr Lila Rahalison and Jocelyn Ratovonjato for their advice and help during the experiment. We are grateful to the staff of the Plague Unit and the Medical Entomology Unit at the Institut Pasteur de Madagascar, particularly Dr Nohal Elissa. Without their expertise this study would not have been possible. Sincere thanks to Mr Tojo Ramihangihajason for his technical assistance. We are indebted to the Institut Pasteur de Madagascar for an internal grant which facilitated additional laboratory research. Two Wellcome Trust fellowships supported ST during this work (081705 and 095171).Peer reviewedPublisher PD

Molecular and serological evidence of flea-associated typhus group and spotted fever group rickettsial infections in Madagascar

This research was supported by the Wellcome Trust (RCDF and Senior Fellowship to ST, #081705 and #095171), the Institut Pasteur de Madagascar, and the Global Emerging Infections Surveillance and Response System, a Division of the Armed Forces Health Surveillance Center [847705.82000.25GB.A0074].Peer reviewedPublisher PD

Plague Circulation and Population Genetics of the Reservoir Rattus rattus: The Influence of Topographic Relief on the Distribution of the Disease within the Madagascan Focus.

International audienceBACKGROUND: Landscape may affect the distribution of infectious diseases by influencing the population density and dispersal of hosts and vectors. Plague (Yersinia pestis infection) is a highly virulent, re-emerging disease, the ecology of which has been scarcely studied in Africa. Human seroprevalence data for the major plague focus of Madagascar suggest that plague spreads heterogeneously across the landscape as a function of the relief. Plague is primarily a disease of rodents. We therefore investigated the relationship between disease distribution and the population genetic structure of the black rat, Rattus rattus, the main reservoir of plague in Madagascar. METHODOLOGYPRINCIPAL FINDINGS: We conducted a comparative study of plague seroprevalence and genetic structure (15 microsatellite markers) in rat populations from four geographic areas differing in topology, each covering about 150-200 km(2) within the Madagascan plague focus. The seroprevalence levels in the rat populations mimicked those previously reported for humans. As expected, rat populations clearly displayed a more marked genetic structure with increasing relief. However, the relationship between seroprevalence data and genetic structure differs between areas, suggesting that plague distribution is not related everywhere to the effective dispersal of rats. CONCLUSIONSSIGNIFICANCE: Genetic diversity estimates suggested that plague epizootics had only a weak impact on rat population sizes. In the highlands of Madagascar, plague dissemination cannot be accounted for solely by the effective dispersal of the reservoir. Human social activities may also be involved in spreading the disease in rat and human populations

Reproductive ecology of the black rat (Rattus rattus) in Madagascar : the influence of density-dependent and -independent effects

Funding Information: We are grateful to the technical and research staff from the Institut Pasteur de Madagascar and Association Vahatra for fieldwork assistance during this study. K.S. was supported by the Biotechnology and Biological Sciences Research Council (BBSRC) under the EastBio DTP [grant number BB/M010996/1]. This work was also supported by the Wellcome Trust [095171/Z/10/Z]; the Medical Research Council [MR/T029862/1]; and by the National Institute for Health Research (NIHR) (using the UK's Official Development Assistance [ODA] Funding) and Wellcome [219532/Z/19/Z] under the NIHR‐Wellcome Partnership for Global Health Research. The views expressed are those of the authors and not necessarily those of Wellcome, the NIHR, or the Department of Health and Social Care. For the purpose of Open Access, the authors have applied a CC BY license to any author accepted manuscript version arising. Research Funding Biotechnology and Biological Sciences Research Council (BBSRC) under the East-Bio DTP. Grant Number: BB/M010996/1 Wellcome TrustBiotechnology. Grant Number: 095171/Z/10/Z the Medical Research Council. Grant Number: MR/T029862/1 the National Institute for Health Research (NIHR) UK’s Official Development Assistance [ODA] Wellcome. Grant Number: 219532/Z/19/ZPeer reviewedPublisher PD

Modeling of spatio-temporal variation in plague incidence in Madagascar from 1980 to 2007

Plague is an infectious disease caused by the bacterium Yersinia pestis, which, during the fourteenth century, caused the deaths of an estimated 75–200 million people in Europe. Plague epidemics still occur in Africa, Asia and South America. Madagascar is today one of the most endemic countries, reporting nearly one third of the human cases worldwide from 2004 to 2009. The persistence of plague in Madagascar is associated with environmental and climatic conditions. In this paper we present a case study of the spatio-temporal analysis of plague incidence in Madagascar from 1980 to 2007. We study the relationship of plague with temperature and precipitation anomalies, and with elevation. A joint spatio-temporal analysis of the data proves to be computationally intractable. We therefore develop a spatio-temporal log-Gaussian Cox process model, but then carry out marginal temporal and spatial analyses. We also introduce a spatially discrete approximation for Gaussian processes, whose parameters retain a spatially continuous interpretation. We find evidence of a cumulative effect, over time, of temperature anomalies on plague incidence, and of a very high relative risk of plague occurrence for locations above 800 m in elevation. Our approach provides a useful modeling framework to assess the relationship between exposures and plague risk, irrespective of the spatial resolution at which the latter has been recorded

Low cost, low tech SNP genotyping tools for resource-limited areas: Plague in Madagascar as a model

Genetic analysis of pathogenic organisms is a useful tool for linking human cases together and/or to potential environmental sources. The resulting data can also provide information on evolutionary patterns within a targeted species and phenotypic traits. However, the instruments often used to generate genotyping data, such as single nucleotide polymorphisms (SNPs), can be expensive and sometimes require advanced technologies to implement. This places many genotyping tools out of reach for laboratories that do not specialize in genetic studies and/or lack the requisite financial and technological resources. To address this issue, we developed a low cost and low tech genotyping system, termed agarose-MAMA, which combines traditional PCR and agarose gel electrophoresis to target phylogenetically informative SNPs

Rodent control to fight plague : field assessment of methods based on rat density reduction

Research funding: Directorate General for International Relations and Strategy. Grant Number: 2018‐SB‐024‐18SSEOC049‐PMG7‐SSA5‐IPMMADAGASCAR ACKNOWLEDGMENTS: We are especially grateful to the health authorities and the population in Miantso and Ankazobe for allowing us to do this work and being so helpful. We thank the staff of the Plague Unit, Institut Pasteur de Madagascar, for helping with the field and laboratory work, especially Alain Berthin Rakotoarisoa and Andrianiaina Parfait Rakotonindrainy. This work was supported by a Directorate General for International Relations and Strategy grant (2018‐SB‐024‐18SSEOC049‐PMG7‐SSA5‐IPMMADAGASCAR) covering the project “Développement de contre‐mesures médicales à la peste à Madagascar” with scientific support of IRBA (French Armed Forces Biomedical Research Institute), within the framework of French MoD's involvement in G7 Global partnership. The French Agency for International Technical Expertise (AFETI) ensures the proper financial execution of the project and contributes to the implementation of cooperation actions under the control of the Directorate General for International Relations and Strategy. This research was also funded in part by the Wellcome Trust [095171/Z/10/Z] and the Institut Pasteur de Madagascar. For the purpose of Open Access, the authors have applied a CC BY public copyright license to any Author Accepted Manuscript version arising from this submission. K.S. was supported by the Biotechnology and Biological Sciences Research Council (BBSRC) under the EastBio DTP (grant number BB/M010996/1).Peer reviewedPublisher PD

Temporal phylogeography of Yersinia pestis in Madagascar : Insights into the long-term maintenance of plague

Data Availability: All relevant data are within the paper and its Supporting Information files except for the sequence read archives for 31 newly sequenced strains that are available at NCBI under the accession numbers: SRR4175414-SRR4175444. The direct link to this data is: https://www.ncbi.nlm.nih.gov/sra/?term=SRP086709. Funding: Funding for this study was provided by the US Department of Homeland Security’s Science and Technology Directorate award number HSHQDC-10-C-00139 to PK; the Cowden Endowment at Northern Arizona University; and Wellcome fellowships 081705 and 095171 to ST. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.Peer reviewedPublisher PD

Preparation and characterization of antibacterial cobalt-exchanged natural zeolite/poly(vinyl alcohol) hydrogels

In the present study, potential application of the local clinoptilolite-rich natural zeolite in formulation of antibacterial hydrogels was investigated. The zeolite powder exchanged with cobalt(II) ions was used in preparation of the zeolite/poly(vinyl alcohol) hydrogel films in different amounts. The films were physically crosslinked by the freezing-thawing method and characterized for their crystallinity, surface and cross sectional morphology, chemical composition, thermal behaviour, mechanical properties, swelling and dissolution behaviours, and antibacterial activities against a Gram-negative bacteria. The films with 0.48 wt% and higher cobalt-exchanged zeolite contents showed antibacterial activity. Addition of the zeolite powder in the formulations did not cause significant changes in the other properties of the films.Turkish Republic Prime Ministry State Planning Organization (DPT-2006 K120690