Your search keyword '"Zanella, G"' showing total 17 results

1. Likely Introduction Date of Schmallenberg Virus into France According to Monthly Serological Surveys in Cattle.

Author

Zanella, G., Raballand, C., Durand, B., Sailleau, C., Pelzer, S., Benoit, F., Doceul, V., Zientara, S., and Bréard, E.

Subjects

*VETERINARY virology, *CATTLE diseases, *SEROLOGY, *HEALTH surveys, *DISEASE prevalence

Abstract

To estimate the date of introduction of Schmallenberg virus ( SBV) into France, the prevalence of antibodies against the virus was determined monthly in cattle from two northern departments from August 2011 to April 2012. Seropositive cattle were detected from October 2011 in both departments with a prevalence of 55.6% in the westernmost department (Meurthe-et-Moselle) and of 12.7% in the easternmost department (Manche). Schmallenberg virus seroprevalence then increased rapidly to high levels. [ABSTRACT FROM AUTHOR]

Published

2015

2. Modelling Transmission of Bovine Tuberculosis in Red Deer and Wild Boar in Normandy, France.

Author

Zanella, G., Bar-Hen, A., Boschiroli, M.-L., Hars, J., Moutou, F., Garin-Bastuji, B., and Durand, B.

Subjects

*TUBERCULOSIS in cattle, *RED deer, *WILD boar, *EPIDEMIOLOGY, *EPIDEMICS, *MYCOBACTERIUM bovis, *DISEASES

Abstract

In early 2001, Mycobacterium bovis infection was confirmed in red deer ( RD) ( Cervus elaphus) shot in Normandy region, France. An epidemiological survey conducted during the following hunting season in two connected forests confirmed the occurrence of the disease in both free-ranging RD and wild boar ( WB) ( Sus scrofa). This was the first detected bovine tuberculosis outbreak in wildlife in France. We present a simple deterministic age-structured model of the within- and between-species M. bovis transmission in RD and WB populations that distinguishes direct transmission (horizontal and pseudo-vertical) and indirect transmission through contaminated offal left behind by hunters. Results issued from the epidemiological surveys conducted in Normandy forests were used to estimate transmission parameters. Because data for RD and WB populations were not available, population sizes at demographic equilibrium were estimated and used to run the model. We qualitatively tested different control measure scenarios with our model, considering different mortality rates and offal harvesting, to determine which ones affect the success of infection control. The most realistic control scenario would combine the total depopulation of RD and good compliance with offal harvesting, because the model suggests that infected offal left by hunters represents the main transmission source of M. bovis in the field. [ABSTRACT FROM AUTHOR]

Published

2012

3. Bluetongue virus serotype 8: Abortion and transplacental transmission in cattle in the Burgundy region, France, 2008–2009

Author

Zanella, G., Durand, B., Sellal, E., Breard, E., Sailleau, C., Zientara, S., Batten, C.A., Mathevet, P., and Audeval, C.

Subjects

*BLUETONGUE virus, *SEROTYPES, *CATTLE pregnancy, *ABORTION, *PLACENTA, *POLYMERASE chain reaction, *BRAIN damage, *CATTLE

Abstract

Abstract: During the incursion of bluetongue virus (BTV) serotype 8 in France in 2007, an increase in the number of abortions in cattle was observed, but the cause was not clearly established. A survey of all the reported cases of abortion in cattle from November 2008 to April 2009 was conducted in the Nièvre district (Burgundy region) to determine the percentage of abortions as a result of BTV-8 and to study factors that could have played a role in BTV-8 transplacental transmission. BTV-8 was present in 16% of the fetuses or newborn calves that died within 48 h, from 780 dams. Dams inseminated before the BTV epizootic peak recorded from July to September 2008 were more likely to have BTV-positive abortions (OR=5.7, P<0.001) and those vaccinated in May or June 2008 were less likely to have BTV-positive abortions (OR=0.3, P=0.01 and OR=0.4, P=0.001, respectively). The gestational month was not a predictor of BTV abortion. In blood or spleen, fetuses/calves from RT-PCR-positive dams had significantly higher RNA concentrations than fetuses/calves from RT-PCR-negative dams. Of the 128 dams that had BTV-positive fetuses or calves, 60% were RT-PCR-negative. BTV-8-positive fetuses/calves were significantly more frequent (n=42 vs n=21, P=0.082) amongst those showing clinical signs or lesions suggestive of cerebral damage. [Copyright &y& Elsevier]

Published

2012

4. Patterns of lesions of bovine tuberculosis in wild red deer and wild boar.

Author

Zanella, G., Duvauchelle, A., Hars, J., Moutou, F., Boschiroli, M. L., and Durand, B.

Subjects

*TUBERCULOSIS in cattle, *PRECANCEROUS conditions, *RED deer, *WILD boar, *MYCOBACTERIUM bovis, *DISEASES

Abstract

The data obtained from a survey of Mycobacterium bovis infection in wild red deer (Cervus elaphus) and wild boar (Sus scrofa) conducted in France in the 2005/06 hunting season were used to describe and quantify the pathological findings in the two species. The red deer had caseous abscessed lesions in their organs and lymph nodes, whereas in the wild boar the lesions were predominantly caseocalcareous and occurred mainly in the lymph nodes. The severity of the gross tuberculosis-like lesions was estimated on the basis of a numerical score. The significant difference between the distribution of the scores in the two species indicated that the disease was more serious in the red deer than in the wild boar. Unlike the red deer, the wild boar did not show a generalised pattern of disease. Among the lymph nodes examined systematically, gross lesions were most frequently observed in the mesenteric lymph nodes in the red deer and in the retropharyngeal lymph nodes in the wild boar. In both species, the presence of gross lesions showed the closest agreement with the isolation of M bovis from the same lymph nodes. The different patterns of the lesions of tuberculosis in the two species suggest that red deer might play an important role in the intraspecies and interspecies dissemination of the infection, whereas in wild boar the spread of the infection would be more likely to be restricted to other wild boar. [ABSTRACT FROM AUTHOR]

Published

2008

5. Clinical cases of Bluetongue serotype 8 in calves in France in the 2018-2019 winter.

Author

Vinomack C, Rivière J, Bréard E, Viarouge C, Postic L, Zientara S, Vitour D, Belbis G, Spony V, Pagneux C, Sailleau C, and Zanella G

Subjects

Animals, Bluetongue congenital, Bluetongue virology, Cattle, Cattle Diseases epidemiology, Female, France epidemiology, Pregnancy, Seasons, Serogroup, Bluetongue epidemiology, Bluetongue virus isolation & purification, Cattle Diseases virology, Infectious Disease Transmission, Vertical veterinary

Abstract

Bluetongue virus serotype 8 (BTV-8) caused an epizootic in Europe in 2006/09. Transplacental transmission of BTV-8 was demonstrated leading to abortions, congenital malformations or nervous clinical signs in newborn calves. BTV-8 re-emerged in France in 2015. Although the re-emergent strain is nearly genetically identical to the one that had circulated in 2006/2009, it has caused very few clinical cases. However, from mid-December 2018 to April 2019, cases of calves with congenital malformations or displaying nervous clinical signs occurred in some departments (French administrative unit) in mainland France. Blood samples from these animals were sent to local laboratories, and the positive ones were confirmed at the French Bluetongue reference laboratory (BT-NRL). Out of 580 samples found positive at the local laboratories, 544 were confirmed as RT-PCR BTV-8 positive. The 36 samples found positive in the local laboratories and negative in the BT-NRL were all at the limit of RT-PCR detection. Hundred eighty-eight of the confirmed samples were also tested for the presence of Schmallenberg virus (SBV) and bovine virus diarrhoea virus (BVDV) infection: 4 were found positive for BVDV and none for SBV. The main clinical signs recorded for 244 calves, for which a reporting form was completed by veterinarians, included nervous clinical signs (81%), amaurosis (72%) and decrease/ no suckling reflex (40%). Hydranencephaly and microphthalmia were reported in 19 calves out of 27 in which a necropsy was practiced after death or euthanasia. These results indicate that the re-emergent strain of BTV-8 can cross the transplacental barrier and cause congenital malformations or nervous clinical signs in calves., (© 2019 Blackwell Verlag GmbH.)

Published

2020

6. Brucella microti-like prevalence in French farms producing frogs.

Author

Jaÿ M, Freddi L, Mick V, Durand B, Girault G, Perrot L, Taunay B, Vuilmet T, Azam D, Ponsart C, and Zanella G

Subjects

Animals, Breeding, Brucella genetics, Brucellosis epidemiology, Brucellosis microbiology, Environment, Farms, France epidemiology, Humans, Prevalence, Zoonoses, Brucella isolation & purification, Brucellosis veterinary, Ranidae microbiology

Abstract

In the last 10 years, many atypical novel members of Brucella species have been reported, including several Brucella inopinata-like strains in wild-caught and "exotic" amphibians from various continents. In 2017, a strain of Brucella was isolated for the first time in animals from a French farm producing frogs-Pelophylax ridibundus-for human consumption and identified as B. microti-like. Following this first isolation, investigations were performed in this farm as well as in the farm of the research unit that provided the domestic frog strain to estimate the prevalence of B. microti-like infection and its presence in the surrounding environment. Farming practices were investigated and samples including frogs at different development stages, surface tank swabs, water, feed and soil were analysed by real-time PCR and bacteriological methods. High B. microti-like prevalence values (higher than 90%) were obtained in frog samples in the commercial farm, and its presence was highlighted in the environmental samples except feed. In the research unit farm, B. microti-like species was also isolated and detected in frog and environmental samples. These results show that B. microti-like organisms are able to colonize amphibians and persist in their environment. Its presence could constitute a possible risk for consumers and workers proving the importance of assessing the zoonotic and pathogenic potentials of these new and atypical Brucella species., (© 2019 Blackwell Verlag GmbH.)

Published

2020

7. A network-based approach to modelling bluetongue spread in France.

Author

Courtejoie N, Cauchemez S, Zanella G, and Durand B

Subjects

Animals, Bayes Theorem, Cattle, France epidemiology, Models, Theoretical, Prevalence, Seroepidemiologic Studies, Sheep, Bluetongue epidemiology, Bluetongue transmission, Cattle Diseases epidemiology, Cattle Diseases transmission, Disease Outbreaks veterinary, Sheep Diseases epidemiology, Sheep Diseases transmission

Abstract

Bluetongue virus serotype 8 (BTV-8) was reported for the first time in Europe in 2006, causing the largest bluetongue outbreak ever recorded. France was mostly impacted in 2007/09. Trade restrictions were implemented all along. Vaccination became available from 2008: a limited number of doses was first administered in an emergency vaccination campaign, followed by two nationwide compulsory vaccination campaigns in 2009 and 2010. France regained a disease-free status in December 2012, but BTV may have kept circulating undetected as infected herds have been reported again since August 2015. We developed a stochastic dynamic compartmental model of BTV transmission in cattle and sheep to analyze the relative importance of vector active flight and host movements in disease spread, and assess the effectiveness of control measures. We represented BTV transmission both within and between French administrative subdivisions called cantons, during the 2007/09 outbreak and until the end of 2010, when compulsory vaccination was interrupted. Within-canton transmission was vector-borne, and between canton transmission could occur through three contact networks that accounted for movements of: (i) vectors between pastures located at close distance; (ii) cattle and sheep between pastures of the same farm; (iii) traded cattle. We estimated the model parameters by approximate Bayesian computation, using data from the 2007 French outbreak. With this framework, we were able to reproduce the BTV-8 epizootic wave. Host movements between distant pastures of the same farm were found to have a major contribution to BTV spread to disease-free areas, thus raising practical questions about herd management during outbreaks. We found that cattle trade restrictions had been well complied with; without them, the whole French territory would have been infected by winter 2007. The 2008 emergency vaccination campaign had little impact on disease spread as almost half vaccine doses had likely been administered to already immune cattle. Alternatively, establishing a vaccination buffer zone would have allowed a better control of BTV in 2008: limiting its spatial expansion and decreasing the number of infected cattle and sheep. We also showed a major role of compulsory vaccination in controlling the outbreak in 2009 and 2010, though we predicted a possible low-level circulation after the last detection., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

8. Red deer ( Cervus elaphus ) Did Not Play the Role of Maintenance Host for Bluetongue Virus in France: The Burden of Proof by Long-Term Wildlife Monitoring and Culicoides Snapshots.

Author

Rossi S, Balenghien T, Viarouge C, Faure E, Zanella G, Sailleau C, Mathieu B, Delécolle JC, Ninio C, Garros C, Gardès L, Tholoniat C, Ariston A, Gauthier D, Mondoloni S, Barboiron A, Pellerin M, Gibert P, Novella C, Barbier S, Guillaumat E, Zientara S, Vitour D, and Bréard E

Subjects

Animals, Animals, Domestic virology, Antibodies, Neutralizing, Antibodies, Viral, Bluetongue epidemiology, Bluetongue transmission, Bluetongue virology, Bluetongue virus immunology, Ceratopogonidae classification, Disease Outbreaks, Female, France epidemiology, Livestock virology, Male, Ruminants virology, Vector Borne Diseases virology, Animals, Wild virology, Bluetongue virus physiology, Ceratopogonidae virology, Deer virology, Disease Reservoirs virology

Abstract

Bluetongue virus (BTV) is a Culicoides -borne pathogen infecting both domestic and wild ruminants. In Europe, the Red Deer ( Cervus elaphus ) (RD) is considered a potential BTV reservoir, but persistent sylvatic cycle has not yet been demonstrated. In this paper, we explored the dynamics of BTV1 and BTV8 serotypes in the RD in France, and the potential role of that species in the re-emergence of BTV8 in livestock by 2015 (i.e., 5 years after the former last domestic cases). We performed 8 years of longitudinal monitoring (2008-2015) among 15 RD populations and 3065 individuals. We compared Culicoides communities and feeding habits within domestic and wild animal environments (51,380 samples). Culicoides diversity (>30 species) varied between them, but bridge-species able to feed on both wild and domestic hosts were abundant in both situations. Despite the presence of competent vectors in natural environments, BTV1 and BTV8 strains never spread in RD along the green corridors out of the domestic outbreak range. Decreasing antibody trends with no PCR results two years after the last domestic outbreak suggests that seropositive young RD were not recently infected but carried maternal antibodies. We conclude that RD did not play a role in spreading or maintaining BTV in France.

Published

2019

9. Quantifying bluetongue vertical transmission in French cattle from surveillance data.

Author

Courtejoie N, Bournez L, Zanella G, and Durand B

Subjects

Animals, Bluetongue epidemiology, Bluetongue virus physiology, Cattle, Cattle Diseases epidemiology, Cattle Diseases transmission, Disease Outbreaks veterinary, Female, France epidemiology, Infectious Disease Transmission, Vertical statistics & numerical data, Prevalence, Reverse Transcriptase Polymerase Chain Reaction veterinary, Seasons, Bluetongue transmission, Infectious Disease Transmission, Vertical veterinary

Abstract

Bluetongue is a vector-borne disease of ruminants with economic consequences for the livestock industry. Bluetongue virus serotype 8 (BTV-8) caused a massive outbreak in Europe in 2006/2009 and re-emerged in France in 2015. Given the unprecedented epidemiological features of this serotype in cattle, the importance of secondary routes of transmission was reconsidered and transplacental transmission of BTV-8 was demonstrated in naturally and experimentally infected cattle. Here we used surveillance data from the on-going outbreak to quantify BTV-8 vertical transmission in French cattle. We used RT-PCR pre-export tests collected from June to December 2016 on the French territory and developed a catalytic model to disentangle vertical and vector-borne transmission. A series of in silico experiments validated the ability of our framework to quantify vertical transmission provided sufficient prevalence levels. By applying our model to an area selected accordingly, we estimated a probability of vertical transmission of 56% (55.8%, 95% credible interval 41.7-70.6) in unvaccinated heifers infected late in gestation. The influence of this high probability of vertical transmission on BTV-8 spread and persistence should be further investigated.

Published

2019

10. Using serological studies to reconstruct the history of bluetongue epidemic in French cattle under successive vaccination campaigns.

Author

Courtejoie N, Salje H, Durand B, Zanella G, and Cauchemez S

Subjects

Animals, Bayes Theorem, Bluetongue prevention & control, Bluetongue virus, Cattle Diseases prevention & control, France epidemiology, Immunization Programs, Vaccination, Bluetongue epidemiology, Bluetongue transmission, Cattle, Cattle Diseases epidemiology, Cattle Diseases transmission, Epidemics

Abstract

Bluetongue virus is a vector-borne pathogen affecting ruminants that has caused major epidemics in France. Reconstructing the history of bluetongue in French cattle under control strategies such as vaccination has been hampered by the high level of sub-clinical infection, incomplete case data and poor understanding of vaccine uptake over time and space. To tackle these challenges, we used three age-structured serological surveys carried out in cattle (N = 22,342) from ten administrative subdivisions called departments. We fitted catalytic models within a Bayesian MCMC framework to reconstruct the force of seroconversion from infection or vaccination, and the population-level susceptibility per semester between 2007 and 2016. In the departments of the study area, we estimated that 36% of cattle had been infected prior to vaccine rollout that became compulsory from July 2008. The last outbreak case was notified in December 2009, at which time 83% of the animals were seropositive, under the cumulative effect of vaccination and infection. The probability of seroconversion per semester dropped below 10% after 2010 when vaccination became optional. Vaccine uptake was smaller during the 2012 campaign than during the one in 2011, with strong regional contrasts. Eighty four percent of cattle were susceptible when bluetongue re-emerged in 2015. Thus, serological surveys can be used to estimate vaccine uptake and the magnitude of infection, the relative effect of which can sometimes be inferred using prior knowledge on reported incidence and vaccination dates., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2018

11. Infection with Mycobacterium microti in animals in France.

Author

Michelet L, de Cruz K, Zanella G, Aaziz R, Bulach T, Karoui C, Hénault S, Joncour G, and Boschiroli ML

Subjects

Animals, Animals, Domestic, Animals, Wild, France epidemiology, Mycobacterium classification, Prevalence, Retrospective Studies, Tuberculosis epidemiology, Tuberculosis microbiology, Mycobacterium isolation & purification, Tuberculosis veterinary

Abstract

We describe here 35 animal cases of tuberculosis due to Mycobacterium microti in France (2002-2014). Recently, molecular tools that overcome the difficulty of confirming infection by this potentially zoonotic agent have revealed an increasing number of cases, suggesting that its prevalence may have been underestimated., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

12. Spread and impact of the Schmallenberg virus epidemic in France in 2012-2013.

Author

Dominguez M, Gache K, Touratier A, Perrin JB, Fediaevsky A, Collin E, Bréard E, Sailleau C, Viarouge C, Zanella G, Zientara S, Hendrikx P, and Calavas D

Subjects

Animals, Bunyaviridae Infections congenital, Bunyaviridae Infections epidemiology, Cattle, Cattle Diseases congenital, Cattle Diseases epidemiology, Communicable Diseases, Emerging epidemiology, Communicable Diseases, Emerging veterinary, France epidemiology, Goat Diseases congenital, Goat Diseases epidemiology, Goats, Seasons, Sheep, Sheep Diseases congenital, Sheep Diseases epidemiology, Time Factors, Bunyaviridae Infections veterinary, Cattle Diseases virology, Epidemics veterinary, Goat Diseases virology, Orthobunyavirus isolation & purification, Sheep Diseases virology

Abstract

Background: The Schmallenberg virus (SBV) emerged in Europe in 2011 and caused a widespread epidemic in ruminants.In France, SBV emergence was monitored through a national multi-stakeholder surveillance and investigation system. Based on the monitoring data collected from January 2012 to August 2013, we describe the spread of SBV in France during two seasons of dissemination (vector seasons 2011 and 2012) and we provide a large-scale assessment of the impact of this new disease in ruminants., Results: SBV impact in infected herds was primarily due to the birth of stillborns or deformed foetuses and neonates. Congenital SBV morbidity level was on average moderate, although higher in sheep than in other ruminant species. On average, 8% of lambs, 3% of calves and 2% of kids born in SBV-infected herds showed typical congenital SBV deformities. In addition, in infected herds, farmers reported retrospectively a lower prolificacy during the vector season, suggesting a potential impact of acute SBV infection during mating and early stages of gestation., Conclusions: Due to the lack of available control and prevention measures, SBV spread quickly in the naive ruminant population. France continues to monitor for SBV, and updated information is made available online on a regular basis [http://www.plateforme-esa.fr/]. Outbreaks of congenital SBV are expected to occur sporadically from now on, but further epidemics may also occur if immunity at population level declines.

Published

2014

13. Estimation of sensitivity and specificity of five serological tests for the diagnosis of porcine brucellosis.

Author

Praud A, Gimenez O, Zanella G, Dufour B, Pozzi N, Antras V, Meyer L, and Garin-Bastuji B

Subjects

Animals, Brucellosis blood, Brucellosis epidemiology, Complement Fixation Tests veterinary, Enzyme-Linked Immunosorbent Assay veterinary, France epidemiology, Sensitivity and Specificity, Seroepidemiologic Studies, Serologic Tests veterinary, Swine, Swine Diseases etiology, Antibodies, Bacterial blood, Brucella suis immunology, Brucellosis veterinary, Swine Diseases blood, Swine Diseases epidemiology

Abstract

While serological tests are essential in surveillance and control programs of animal diseases, to date none of the common serological tests approved in the EU (complement fixation test or Rose-Bengal test) has been shown to be reliable in routine individual diagnosis of porcine brucellosis, and some more recent tests like ELISA have not been fully evaluated yet. In the absence of a gold standard, this study allowed the estimation of sensitivities and specificities of these tests with a Bayesian approach using Markov Chain Monte Carlo algorithms. The pig population that was tested included 6422 animals from Metropolitan France. Serum samples were collected from a large population of pigs, representative of European swine population and tested with five brucellosis serological tests: Rose-Bengal test (RBT), fluorescence polarization assay (FPA), indirect ELISA (I-ELISA) and two competitive ELISAs (C-ELISA). The sensitivity and the specificity of each test were estimated. When doubtful results were excluded, the most sensitive and specific test was C-ELISA(2) (Se C-ELISA(2)=0.964, [0.907; 0.994], 95% credibility interval (CrI); Sp C-ELISA(2)=0.996, [0.982; 1.0], 95% CrI). When doubtful results were considered as negative, C-ELISA(2) was still the most sensitive and specific test (Se C-ELISA(2)=0.960, [0.896; 0.994], 95% CrI and Sp C-ELISA(2)=0.994, [0.977; 0.999], 95% CrI). The same conclusions were reached when doubtful results were considered as positive (Se C-ELISA(2)=0.963, [0.904, 0.994], 95% CrI and Sp C-ELISA(2)=0.996, [0.986; 1.0], 95% CrI)., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

14. Anatomy of bluetongue virus serotype 8 epizootic wave, France, 2007-2008.

Author

Durand B, Zanella G, Biteau-Coroller F, Locatelli C, Baurier F, Simon C, Le Dréan E, Delaval J, Prengère E, Beauté V, and Guis H

Subjects

Animals, Antibodies, Viral blood, Bluetongue blood, Bluetongue virus isolation & purification, Cattle, Cattle Diseases blood, Cross-Sectional Studies, Ecosystem, France epidemiology, Seasons, Seroepidemiologic Studies, Serotyping, Sheep virology, Bluetongue epidemiology, Bluetongue virus classification, Cattle Diseases epidemiology, Cattle Diseases virology, Disease Outbreaks veterinary

Abstract

The introduction of bluetongue virus serotype 8 into northern Europe at the end of summer 2006 initiated one of the most widespread epizootics of bluetongue infection ever to occur. In winter 2007-2008, a cross-sectional serologic study was conducted in France along a transect perpendicular to the epizootic wave. Cattle herd-level seroprevalence varied from 4% to 100%, and animal-level seroprevalence from <1% to 40%. Only a low proportion of seropositive herds reported clinical cases in 2007. Sheep flocks were less frequently affected than cattle herds. The local occurrence of clinical cases and environmental indicators linked to forests were seropositivity risk factors, whereas the local density of cows had a protective effect. Overall results suggest that amplification of virus circulation in affected herds played a limited role in the epizootic wave diffusion and that bluetongue virus serotype 8 circulation in natural ecosystems could have played a substantial role in this progression.

Published

2010

15. Chlamydial infections in duck farms associated with human cases of psittacosis in France.

Author

Laroucau K, de Barbeyrac B, Vorimore F, Clerc M, Bertin C, Harkinezhad T, Verminnen K, Obeniche F, Capek I, Bébéar C, Durand B, Zanella G, Vanrompay D, Garin-Bastuji B, and Sachse K

Subjects

Adult, Animals, DNA, Bacterial genetics, Female, France epidemiology, Genotype, Humans, Male, Middle Aged, Polymerase Chain Reaction, Poultry Diseases transmission, Zoonoses, Ducks, Poultry Diseases microbiology, Psittacosis transmission

Abstract

Five severe cases of psittacosis in individuals associated with duck farms were notified in France between January and March 2006. Diagnostic examination included serology and/or molecular detection by PCR from respiratory samples. As a consequence, we investigated all duck flocks (n=11) that were housed in the three farms where human infections occurred. While serology by complement fixation test was negative for all samples, cloacal and/or tracheal chlamydial excretion was detected by PCR in all three units. Notably, one duck flock was tested strongly positive in 2 of the 3 affected farms, and Chlamydophila (C.) psittaci strains were isolated from cloacal and/or tracheal swab samples from both farms. Human samples and duck isolates exhibited the same PCR-RFLP restriction pattern, which appeared to be an intermediate between genotypes A and B. Analysis of ompA gene sequences and comparison to those of the type strains showed that the isolates could not be strictly assigned to any of the generally accepted genotypes of C. psittaci. Further analysis by MLVA of the PCR-positive human samples revealed two distinct patterns, which were related to previously isolated C. psittaci duck strains.

Published

2009

16. Bluetongue virus serotype 8 in the Ardennes in 2007.

Author

Le Gal MC, Dufour B, Geoffroy E, Zanella G, Moutou F, Millemann Y, Rieffel JN, and Pouilly F

Subjects

Animals, Bluetongue epidemiology, Bluetongue mortality, Cattle, Cattle Diseases epidemiology, Cattle Diseases mortality, France epidemiology, Phylogeny, Serotyping veterinary, Sheep, Sheep Diseases epidemiology, Sheep Diseases mortality, Bluetongue virology, Bluetongue virus classification, Cattle Diseases virology, Sheep Diseases virology

Published

2008

17. Mycobacterium bovis in wildlife in France.

Author

Zanella G, Durand B, Hars J, Moutou F, Garin-Bastuji B, Duvauchelle A, Fermé M, Karoui C, and Boschiroli ML

Subjects

Age Factors, Animals, Animals, Wild microbiology, Diagnosis, Differential, Female, Foxes microbiology, France epidemiology, Male, Mustelidae microbiology, Predictive Value of Tests, Prevalence, Reproducibility of Results, Sensitivity and Specificity, Sus scrofa microbiology, Tuberculosis diagnosis, Tuberculosis epidemiology, Tuberculosis pathology, Deer microbiology, Mycobacterium bovis isolation & purification, Tuberculosis veterinary

Abstract

In early 2001, tuberculosis-like lesions were detected in three hunter-killed red deer (Cervus elaphus) in the Brotonne Forest (Normandy, France), and Mycobacterium bovis was isolated. In subsequent hunting seasons, two surveys were conducted in the area. In the first survey (2001-02 hunting season), nine (13%) of 72 red deer sampled were positive for M. bovis. In the 2005-06 hunting season, the prevalence of M. bovis infection increased to 24% (chi2=3.85, df=1, P=0.05; 33 positive among 138 sampled). The prevalence remained stable in juveniles, but it increased significantly in adults: from 13% in 2001-02 to 32% in 2005-06 (chi2=5.13, df=1, P=0.02). Wild boar (Sus scrofa) were heavily infected in both surveys. One roe deer (Capreolus capreolus) and one red fox (Vulpes vulpes) also tested positive in the second survey. Mycobacterium bovis was not isolated from Eurasian badgers (Meles meles). Spoligotyping and mycobacterial interspersed repetitive unit-variable number tandem repeat analysis demonstrated that all M. bovis strains isolated from wildlife were of the same genotype. Thus, the wildlife outbreak involved only a single strain, and this strain was the same as that circulating in nearby cattle herds since 1995. Sensitivity, specificity, and predictive values of the presence of macroscopic lesions as a diagnostic criterion were evaluated from the data obtained from red deer. Necropsy seems to be satisfactory as a routine tool to monitor the disease in wild red deer populations in which bovine tuberculosis has become established.

Published

2008