7 results on '"Guernier, Vanina"'
Search Results
2. Describing fine spatiotemporal dynamics of rat fleas in an insular ecosystem enlightens abiotic drivers of murine typhus incidence in humans
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Tran, Annelise, Le Minter, Gildas, Balleydier, Elsa, Etheves, Anaïs, Laval, Morgane, Boucher, Floriane, Guernier, Vanina, Lagadec, Erwan, Mavingui, Patrick, Cardinale, Eric, Tortosa, Pablo, Territoires, Environnement, Télédétection et Information Spatiale (UMR TETIS), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-AgroParisTech-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Département Environnements et Sociétés (Cirad-ES), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad), Processus Infectieux en Milieu Insulaire Tropical (PIMIT), Centre National de la Recherche Scientifique (CNRS)-IRD-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de La Réunion (UR), Santé publique France - French National Public Health Agency [Saint-Maurice, France], Animal, Santé, Territoires, Risques et Ecosystèmes (UMR ASTRE), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Département Systèmes Biologiques (Cirad-BIOS), This study was funded by the Regional Health Agency in Reunion Island (https://www.ocean-indien.ars.sante.fr/), FEDER INTERREG TROI project, and FEDER-POCT LeptOI project, under the platform in partnership One Health Indian Ocean (www.onehealth-oi.org)., Université de La Réunion (UR)-Institut National de la Santé et de la Recherche Médicale (INSERM)-IRD-Centre National de la Recherche Scientifique (CNRS), and LESUR, Hélène
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Bacterial Diseases ,Topography ,Atmospheric Science ,Epidemiology ,Rain ,[SDV]Life Sciences [q-bio] ,animal diseases ,RC955-962 ,L73 - Maladies des animaux ,Rodent Diseases ,Medical Conditions ,Arctic medicine. Tropical medicine ,Medicine and Health Sciences ,Dynamique des populations ,Xenopsylla ,Rickettsia ,Mammals ,Islands ,U10 - Informatique, mathématiques et statistiques ,Incidence ,Eukaryota ,Typhus, Endemic Flea-Borne ,Animal Models ,[SDV] Life Sciences [q-bio] ,Insects ,Infectious Diseases ,Fleas ,Experimental Organism Systems ,S50 - Santé humaine ,Vertebrates ,Île ,Seasons ,Public aspects of medicine ,RA1-1270 ,Research Article ,zoonose ,Arthropoda ,Research and Analysis Methods ,Rodents ,Typhus ,Flea Infestations ,Spatio-Temporal Analysis ,Meteorology ,Model Organisms ,Animals ,Humans ,Surveillance épidémiologique ,Ecosystem ,Transmission des maladies ,Landforms ,Organisms ,Biology and Life Sciences ,Geomorphology ,Distribution spatiale ,facteurs abiotiques ,bacterial infections and mycoses ,Invertebrates ,Rats ,[SDV.SPEE] Life Sciences [q-bio]/Santé publique et épidémiologie ,Modélisation ,Murine Typhus ,Amniotes ,Earth Sciences ,Animal Studies ,[SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie ,Reunion ,Zoology ,Entomology - Abstract
Murine typhus is a flea-borne zoonotic disease that has been recently reported on Reunion Island, an oceanic volcanic island located in the Indian Ocean. Five years of survey implemented by the regional public health services have highlighted a strong temporal and spatial structure of the disease in humans, with cases mainly reported during the humid season and restricted to the dry southern and western portions of the island. We explored the environmental component of this zoonosis in an attempt to decipher the drivers of disease transmission. To do so, we used data from a previously published study (599 small mammals and 175 Xenopsylla fleas from 29 sampling sites) in order to model the spatial distribution of rat fleas throughout the island. In addition, we carried out a longitudinal sampling of rats and their ectoparasites over a 12 months period in six study sites (564 rats and 496 Xenopsylla fleas) in order to model the temporal dynamics of flea infestation of rats. Generalized Linear Models and Support Vector Machine classifiers were developed to model the Xenopsylla Genus Flea Index (GFI) from climatic and environmental variables. Results showed that the spatial distribution and the temporal dynamics of fleas, estimated through the GFI variations, are both strongly controlled by abiotic factors: rainfall, temperature and land cover. The models allowed linking flea abundance trends with murine typhus incidence rates. Flea infestation in rats peaked at the end of the dry season, corresponding to hot and dry conditions, before dropping sharply. This peak of maximal flea abundance preceded the annual peak of human murine typhus cases by a few weeks. Altogether, presented data raise novel questions regarding the ecology of rat fleas while developed models contribute to the design of control measures adapted to each micro region of the island with the aim of lowering the incidence of flea-borne diseases., Author summary Murine typhus is a neglected zoonotic disease, as the number of human cases is likely underestimated in the absence of specific symptoms. It is caused by Rickettsia typhi, a pathogenic bacterium transmitted by rat fleas (Xenospylla spp). The distribution and dynamics of this disease result from complex interactions involving vectors, reservoirs and humans within a shared environment. In this study, we explored the environmental drivers of rat fleas’ abundance on Reunion Island, where murine typhus has recently emerged. Results showed that i) rat fleas’ abundance is highly dynamic, characterized by a peak at the end of the dry season and ii) among the factors investigated, rainfall, temperature and land cover are the main determinants of rat fleas’ abundance. We modeled a predictive map of flea distribution that strongly correlates with the spatial distribution of human cases on the island. This study highlights the importance of accounting for environmental and climatic characteristics to better understand the spatial and temporal drivers of flea-borne diseases.
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- 2021
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3. A systematic review of human and animal leptospirosis in the Pacific Islands reveals pathogen and reservoir diversity.
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Guernier, Vanina, Goarant, Cyrille, Benschop, Jackie, and Lau, Colleen L.
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LEPTOSPIROSIS , *EPIDEMIOLOGY , *EUKARYOTES , *COMMUNICABLE diseases , *AMNIOTES , *LEPTOSPIRA - Abstract
Background: The Pacific Islands have environmental conditions highly favourable for transmission of leptospirosis, a neglected zoonosis with highest incidence in the tropics, and Oceania in particular. Recent reports confirm the emergence and outbreaks of leptospirosis in the Pacific Islands, but the epidemiology and drivers of transmission of human and animal leptospirosis are poorly documented, especially in the more isolated and less developed islands. Methodology/Principal findings: We conducted a systematic review of human and animal leptospirosis within 25 Pacific Islands (PIs) in Polynesia, Melanesia, Micronesia, as well as Easter Island and Hawaii. We performed a literature search using four international databases for articles published between January 1947 and June 2017. We further included grey literature available on the internet. We identified 148 studies describing leptospirosis epidemiology, but the number of studies varied significantly between PIs. No data were available from four PIs. Human leptospirosis has been reported from 13 PIs, with 63% of all studies conducted in Hawaii, French Polynesia and New Caledonia. Animal leptospirosis has been investigated in 19 PIs and from 14 host species, mainly pigs (18% of studies), cattle (16%) and dogs (11%). Only 13 studies provided information on both human and animal leptospirosis from the same location. Serology results were highly diverse in the region, both in humans and animals. Conclusions/Significance: Our study suggests that, as in other tropical regions, leptospirosis is widespread in the PIs while showing some epidemiological heterogeneity. Data are scarce or absent from many PIs. Rodents, cattle, pigs and dogs are all likely to be important carriers, but the relative importance of each animal species in human infection needs to be clarified. Epidemiological surveys with appropriate sampling design, pathogen typing and data analysis are needed to improve our understanding of transmission patterns and to develop effective intervention strategies. [ABSTRACT FROM AUTHOR]
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- 2018
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4. Human leptospirosis in Seychelles: A prospective study confirms the heavy burden of the disease but suggests that rats are not the main reservoir.
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Biscornet, Leon, Dellagi, Koussay, Pagès, Frédéric, Bibi, Jastin, de Comarmond, Jeanine, Mélade, Julien, Govinden, Graham, Tirant, Maria, Gomard, Yann, Guernier, Vanina, Lagadec, Erwan, Mélanie, Jimmy, Rocamora, Gérard, Le Minter, Gildas, Jaubert, Julien, Mavingui, Patrick, and Tortosa, Pablo
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LEPTOSPIROSIS ,ZOONOSES ,PATHOGENIC microorganisms ,INFECTIOUS disease transmission ,PUBLIC health administration - Abstract
Background: Leptospirosis is a bacterial zoonosis caused by pathogenic Leptospira for which rats are considered as the main reservoir. Disease incidence is higher in tropical countries, especially in insular ecosystems. Our objectives were to determine the current burden of leptospirosis in Seychelles, a country ranking first worldwide according to historical data, to establish epidemiological links between animal reservoirs and human disease, and to identify drivers of transmission. Methods: A total of 223 patients with acute febrile symptoms of unknown origin were enrolled in a 12-months prospective study and tested for leptospirosis through real-time PCR, IgM ELISA and MAT. In addition, 739 rats trapped throughout the main island were investigated for Leptospira renal carriage. All molecularly confirmed positive samples were further genotyped. Results: A total of 51 patients fulfilled the biological criteria of acute leptospirosis, corresponding to an annual incidence of 54.6 (95% CI 40.7–71.8) per 100,000 inhabitants. Leptospira carriage in Rattus spp. was overall low (7.7%) but dramatically higher in Rattus norvegicus (52.9%) than in Rattus rattus (4.4%). Leptospira interrogans was the only detected species in both humans and rats, and was represented by three distinct Sequence Types (STs). Two were novel STs identified in two thirds of acute human cases while noteworthily absent from rats. Conclusions: This study shows that human leptospirosis still represents a heavy disease burden in Seychelles. Genotype data suggests that rats are actually not the main reservoir for human disease. We highlight a rather limited efficacy of preventive measures so far implemented in Seychelles. This could result from ineffective control measures of excreting animal populations, possibly due to a misidentification of the main contaminating reservoir(s). Altogether, presented data stimulate the exploration of alternative reservoir animal hosts. [ABSTRACT FROM AUTHOR]
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- 2017
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5. Leptospira diversity in animals and humans in Tahiti, French Polynesia.
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Guernier, Vanina, Richard, Vaea, Nhan, Tuxuan, Rouault, Eline, Tessier, Anita, and Musso, Didier
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LEPTOSPIRA , *LEPTOSPIROSIS , *EPIDEMIOLOGY , *DOGS , *GENOTYPES - Abstract
Background: Leptospirosis is a highly endemic bacterial zoonosis in French Polynesia (FP). Nevertheless, data on the epidemiology of leptospirosis in FP are scarce. We conducted molecular studies on Leptospira isolated from humans and the potential main animal reservoirs in order to identify the most likely sources for human infection. Methodology/Principal findings: Wild rats (n = 113), farm pigs (n = 181) and domestic dogs (n = 4) were screened for Leptospira infection in Tahiti, the most populated island in FP. Positive samples were genotyped and compared to Leptospira isolated from human cases throughout FP (n = 51), using secY, 16S and LipL32 sequencing, and MLST analysis. Leptospira DNA was detected in 20.4% of rats and 26.5% of pigs. We identified two Leptospira species and three sequence types (STs) in animals and humans: Leptospira interrogans ST140 in pigs only and L. interrogans ST17 and Leptospira borgpetersenii ST149 in humans and rats. Overall, L. interrogans was the dominant species and grouped into four clades: one clade including a human case only, two clades including human cases and dogs, and one clade including human cases and rats. All except one pig sample showed a unique L. interrogans (secY) genotype distinct from those isolated from humans, rats and dogs. Moreover, LipL32 sequencing allowed the detection of an additional Leptospira genotype in pigs, clearly distinct from the previous ones. Conclusions/Significance: Our data confirm rats as a major potential source for human leptospirosis in FP. By contrast to what was expected, farm pigs did not seem to be a major reservoir for the Leptospira genotypes identified in human patients. Thus, further investigations will be required to determine their significance in leptospirosis transmission in FP. [ABSTRACT FROM AUTHOR]
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- 2017
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6. Human Leptospirosis on Reunion Island, Indian Ocean: Are Rodents the (Only) Ones to Blame?
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Guernier, Vanina, Lagadec, Erwan, Cordonin, Colette, Le Minter, Gildas, Gomard, Yann, Pagès, Frédéric, Jaffar-Bandjee, Marie-Christine, Michault, Alain, Tortosa, Pablo, and Dellagi, Koussay
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LEPTOSPIROSIS , *LEPTOSPIRA interrogans , *RATS as carriers of disease , *PUBLIC health , *MOLECULAR epidemiology , *TROPICAL medicine , *DISEASE risk factors - Abstract
Background: Although leptospirosis is a zoonosis of major concern on tropical islands, the molecular epidemiology of the disease aiming at linking human cases to specific animal reservoirs has been rarely explored within these peculiar ecosystems. Methodology/Principal Findings: Five species of wild small mammals (n = 995) as well as domestic animals (n = 101) were screened for Leptospira infection on Reunion Island; positive samples were subsequently genotyped and compared to Leptospira from clinical cases diagnosed in 2012–2013 (n = 66), using MLST analysis. We identified two pathogenic species in human cases, namely Leptospira interrogans and Leptospira borgpetersenii. Leptospira interrogans was by far dominant both in clinical samples (96.6%) and in infected animal samples (95.8%), with Rattus spp and dogs being its exclusive carriers. The genetic diversity within L. interrogans was apparently limited to two sequence types (STs): ST02, identified among most clinical samples and in all rats with complete MLST, and ST34, identified in six humans, but not in rats. Noteworthy, L. interrogans detected in two stray dogs partially matched with ST02 and ST34. Leptospira borgpetersenii was identified in two clinical samples only (3.4%), as well as in cows and mice; four haplotypes were identified, of which two seemingly identical in clinical and animal samples. Leptospira borgpetersenii haplotypes detected in human cases were clearly distinct from the lineage detected so far in the endemic bat species Mormopterus francoismoutoui, thus excluding a role for this volant mammal in the local human epidemiology of the disease. Conclusions/Significance: Our data confirm rats as a major reservoir of Leptospira on Reunion Island, but also pinpoint a possible role of dogs, cows and mice in the local epidemiology of human leptospirosis. This study shows that a comprehensive molecular characterization of pathogenic Leptospira in both clinical and animal samples helps to gaining insight into leptospirosis epidemiology within a specific environmental setting. [ABSTRACT FROM AUTHOR]
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- 2016
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7. Fleas of Small Mammals on Reunion Island: Diversity, Distribution and Epidemiological Consequences.
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Guernier, Vanina, Lagadec, Erwan, LeMinter, Gildas, Licciardi, Séverine, Balleydier, Elsa, Pagès, Frédéric, Laudisoit, Anne, Dellagi, Koussay, and Tortosa, Pablo
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FLEAS , *INSECT diversity , *MAMMAL parasites , *ARTHROPOD vectors , *ENDEMIC flea-borne typhus , *HOST specificity (Biology) , *RATTUS rattus - Abstract
The diversity and geographical distribution of fleas parasitizing small mammals have been poorly investigated on Indian Ocean islands with the exception of Madagascar where endemic plague has stimulated extensive research on these arthropod vectors. In the context of an emerging flea-borne murine typhus outbreak that occurred recently in Reunion Island, we explored fleas' diversity, distribution and host specificity on Reunion Island. Small mammal hosts belonging to five introduced species were trapped from November 2012 to November 2013 along two altitudinal transects, one on the windward eastern and one on the leeward western sides of the island. A total of 960 animals were trapped, and 286 fleas were morphologically and molecularly identified. Four species were reported: (i) two cosmopolitan Xenopsylla species which appeared by far as the prominent species, X. cheopis and X. brasiliensis; (ii) fewer fleas belonging to Echidnophaga gallinacea and Leptopsylla segnis. Rattus rattus was found to be the most abundant host species in our sample, and also the most parasitized host, predominantly by X. cheopis. A marked decrease in flea abundance was observed during the cool-dry season, which indicates seasonal fluctuation in infestation. Importantly, our data reveal that flea abundance was strongly biased on the island, with 81% of all collected fleas coming from the western dry side and no Xenopsylla flea collected on almost four hundred rodents trapped along the windward humid eastern side. The possible consequences of this sharp spatio-temporal pattern are discussed in terms of flea-borne disease risks in Reunion Island, particularly with regard to plague and the currently emerging murine typhus outbreak. [ABSTRACT FROM AUTHOR]
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- 2014
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