Your search keyword '"Giovanni, Savini"' showing total 10 results

1. Virulence and transmission vary between Usutu virus lineages in Culex pipiens.

Author

Maxime Prat, Mélanie Jeanneau, Ignace Rakotoarivony, Maxime Duhayon, Yannick Simonin, Giovanni Savini, Pierrick Labbé, and Haoues Alout

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Usutu virus (USUV) is a zoonotic arbovirus infecting mainly wild birds. It is transmitted by ornithophilic mosquitoes, mainly of the genus Culex from birds to birds and to several vertebrate dead-end hosts. Several USUV lineages, differing in their virulence have emerged in the last decades and now co-circulate in Europe, impacting human populations. However, their relative transmission and effects on their mosquito vectors is still not known. We thus compared the vector competence and survival of Culex pipiens mosquitoes experimentally infected with two distinct USUV lineages, EU2 and EU3, that are known to differ in their virulence and replication in vertebrate hosts. Infection rate was variable among blood feeding assays but variations between EU2 and EU3 lineages were consistent suggesting that Culex pipiens was equally susceptible to infection by both lineages. However, EU3 viral load increased with viral titer in the blood meal while EU2 viral load was high at all titers which suggest a greater replication of EU2 than EU3 in mosquito. While their relative transmission efficiencies are similar, at least at low blood meal titer, positive correlation between transmission and blood meal titer was observed for EU3 only. Contrary to published results in vertebrates, EU3 induced a higher mortality to mosquitoes (i.e. virulence) than EU2 whatever the blood meal titer. Therefore, we found evidence of lineage-specific differences in vectorial capacity and virulence to both the vector and vertebrate host which lead to balanced propagation of both viral lineages. These results highlight the need to decipher the interactions between vectors, vertebrate hosts, and the diversity of arbovirus lineages to fully understand transmission dynamics.

Published

2024

2. Epidemiology of West Nile virus in Africa: An underestimated threat.

Author

Giulia Mencattelli, Marie Henriette Dior Ndione, Roberto Rosà, Giovanni Marini, Cheikh Tidiane Diagne, Moussa Moise Diagne, Gamou Fall, Ousmane Faye, Mawlouth Diallo, Oumar Faye, Giovanni Savini, and Annapaola Rizzoli

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

BackgroundWest Nile virus is a mosquito-borne flavivirus which has been posing continuous challenges to public health worldwide due to the identification of new lineages and clades and its ability to invade and establish in an increasing number of countries. Its current distribution, genetic variability, ecology, and epidemiological pattern in the African continent are only partially known despite the general consensus on the urgency to obtain such information for quantifying the actual disease burden in Africa other than to predict future threats at global scale.Methodology and principal findingsReferences were searched in PubMed and Google Scholar electronic databases on January 21, 2020, using selected keywords, without language and date restriction. Additional manual searches of reference list were carried out. Further references have been later added accordingly to experts' opinion. We included 153 scientific papers published between 1940 and 2021. This review highlights: (i) the co-circulation of WNV-lineages 1, 2, and 8 in the African continent; (ii) the presence of diverse WNV competent vectors in Africa, mainly belonging to the Culex genus; (iii) the lack of vector competence studies for several other mosquito species found naturally infected with WNV in Africa; (iv) the need of more competence studies to be addressed on ticks; (iv) evidence of circulation of WNV among humans, animals and vectors in at least 28 Countries; (v) the lack of knowledge on the epidemiological situation of WNV for 19 Countries and (vii) the importance of carrying out specific serological surveys in order to avoid possible bias on WNV circulation in Africa.ConclusionsThis study provides the state of art on WNV investigation carried out in Africa, highlighting several knowledge gaps regarding i) the current WNV distribution and genetic diversity, ii) its ecology and transmission chains including the role of different arthropods and vertebrate species as competent reservoirs, and iii) the real disease burden for humans and animals. This review highlights the needs for further research and coordinated surveillance efforts on WNV in Africa.

Published

2022

3. 'Frozen evolution' of an RNA virus suggests accidental release as a potential cause of arbovirus re-emergence.

Author

David J Pascall, Kyriaki Nomikou, Emmanuel Bréard, Stephan Zientara, Ana da Silva Filipe, Bernd Hoffmann, Maude Jacquot, Joshua B Singer, Kris De Clercq, Anette Bøtner, Corinne Sailleau, Cyril Viarouge, Carrie Batten, Giantonella Puggioni, Ciriaco Ligios, Giovanni Savini, Piet A van Rijn, Peter P C Mertens, Roman Biek, and Massimo Palmarini

Subjects

Biology (General), QH301-705.5

Abstract

The mechanisms underlying virus emergence are rarely well understood, making the appearance of outbreaks largely unpredictable. Bluetongue virus serotype 8 (BTV-8), an arthropod-borne virus of ruminants, emerged in livestock in northern Europe in 2006, spreading to most European countries by 2009 and causing losses of billions of euros. Although the outbreak was successfully controlled through vaccination by early 2010, puzzlingly, a closely related BTV-8 strain re-emerged in France in 2015, triggering a second outbreak that is still ongoing. The origin of this virus and the mechanisms underlying its re-emergence are unknown. Here, we performed phylogenetic analyses of 164 whole BTV-8 genomes sampled throughout the two outbreaks. We demonstrate consistent clock-like virus evolution during both epizootics but found negligible evolutionary change between them. We estimate that the ancestor of the second outbreak dates from the height of the first outbreak in 2008. This implies that the virus had not been replicating for multiple years prior to its re-emergence in 2015. Given the absence of any known natural mechanism that could explain BTV-8 persistence over this long period without replication, we hypothesise that the second outbreak could have been initiated by accidental exposure of livestock to frozen material contaminated with virus from approximately 2008. Our work highlights new targets for pathogen surveillance programmes in livestock and illustrates the power of genomic epidemiology to identify pathways of infectious disease emergence.

Published

2020

4. Spatio-Temporal Identification of Areas Suitable for West Nile Disease in the Mediterranean Basin and Central Europe.

Author

Annamaria Conte, Luca Candeloro, Carla Ippoliti, Federica Monaco, Fabrizio De Massis, Rossana Bruno, Daria Di Sabatino, Maria Luisa Danzetta, Abdennasser Benjelloun, Bouchra Belkadi, Mehdi El Harrak, Silvia Declich, Caterina Rizzo, Salah Hammami, Thameur Ben Hassine, Paolo Calistri, and Giovanni Savini

Subjects

Medicine, Science

Abstract

West Nile virus (WNV) is a mosquito-transmitted Flavivirus belonging to the Japanese encephalitis antigenic complex of the Flaviviridae family. Its spread in the Mediterranean basin and the Balkans poses a significant risk to human health and forces public health officials to constantly monitor the virus transmission to ensure prompt application of preventive measures. In this context, predictive tools indicating the areas and periods at major risk of WNV transmission are of paramount importance. Spatial analysis approaches, which use environmental and climatic variables to find suitable habitats for WNV spread, can enhance predictive techniques. Using the Mahalanobis Distance statistic, areas ecologically most suitable for sustaining WNV transmission were identified in the Mediterranean basin and Central Europe. About 270 human and equine clinical cases notified in Italy, Greece, Portugal, Morocco, and Tunisia, between 2008 and 2012, have been considered. The environmental variables included in the model were altitude, slope, night time Land Surface Temperature, Normalized Difference Vegetation Index, Enhanced Vegetation Index, and daily temperature range. Seasonality of mosquito population has been modelled and included in the analyses to produce monthly maps of suitable areas for West Nile Disease. Between May and July, the most suitable areas are located in Tunisia, Libya, Egypt, and North Cyprus. Summer/Autumn months, particularly between August and October, characterize the suitability in Italy, France, Spain, the Balkan countries, Morocco, North Tunisia, the Mediterranean coast of Africa, and the Middle East. The persistence of suitable conditions in December is confined to the coastal areas of Morocco, Tunisia, Libya, Egypt, and Israel.

Published

2015

5. First External Quality Assessment of Molecular and Serological Detection of Rift Valley Fever in the Western Mediterranean Region.

Author

Federica Monaco, Gian Mario Cosseddu, Baba Doumbia, Hafsa Madani, Fatiha El Mellouli, Miguel Angel Jiménez-Clavero, Soufien Sghaier, Philippe Marianneau, Catherine Cetre-Sossah, Andrea Polci, Sandra Lacote, Magtouf Lakhdar, Jovita Fernandez-Pinero, Chabane Sari Nassim, Chiara Pinoni, Andrea Capobianco Dondona, Carmina Gallardo, Taoufiq Bouzid, Annamaria Conte, Grazia Bortone, Giovanni Savini, Antonio Petrini, and Lilian Puech

Subjects

Medicine, Science

Abstract

Rift Valley fever (RVF) is a mosquito-borne viral zoonosis which affects humans and a wide range of domestic and wild ruminants. The large spread of RVF in Africa and its potential to emerge beyond its geographic range requires the development of surveillance strategies to promptly detect the disease outbreaks in order to implement efficient control measures, which could prevent the widespread of the virus to humans. The Animal Health Mediterranean Network (REMESA) linking some Northern African countries as Algeria, Egypt, Libya, Mauritania, Morocco, Tunisia with Southern European ones as France, Italy, Portugal and Spain aims at improving the animal health in the Western Mediterranean Region since 2009. In this context, a first assessment of the diagnostic capacities of the laboratories involved in the RVF surveillance was performed. The first proficiency testing (external quality assessment--EQA) for the detection of the viral genome and antibodies of RVF virus (RVFV) was carried out from October 2013 to February 2014. Ten laboratories participated from 6 different countries (4 from North Africa and 2 from Europe). Six laboratories participated in the ring trial for both viral RNA and antibodies detection methods, while four laboratories participated exclusively in the antibodies detection ring trial. For the EQA targeting the viral RNA detection methods 5 out of 6 laboratories reported 100% of correct results. One laboratory misidentified 2 positive samples as negative and 3 positive samples as doubtful indicating a need for corrective actions. For the EQA targeting IgG and IgM antibodies methods 9 out of the 10 laboratories reported 100% of correct results, whilst one laboratory reported all correct results except one false-positive. These two ring trials provide evidence that most of the participating laboratories are capable to detect RVF antibodies and viral RNA thus recognizing RVF infection in affected ruminants with the diagnostic methods currently available.

Published

2015

6. West Nile Virus Surveillance in 2013 via Mosquito Screening in Northern Italy and the Influence of Weather on Virus Circulation.

Author

Mattia Calzolari, Alessandra Pautasso, Fabrizio Montarsi, Alessandro Albieri, Romeo Bellini, Paolo Bonilauri, Francesco Defilippo, Davide Lelli, Ana Moreno, Mario Chiari, Marco Tamba, Mariagrazia Zanoni, Giorgio Varisco, Silvia Bertolini, Paola Modesto, Maria Cristina Radaelli, Barbara Iulini, Marino Prearo, Silvia Ravagnan, Stefania Cazzin, Paolo Mulatti, Isabella Monne, Lebana Bonfanti, Stefano Marangon, Maria Goffredo, Giovanni Savini, Simone Martini, Andrea Mosca, Marco Farioli, Laura Gemma Brenzoni, Manlio Palei, Francesca Russo, Silvano Natalini, Paola Angelini, Cristina Casalone, Michele Dottori, and Gioia Capelli

Subjects

Medicine, Science

Abstract

West Nile virus (WNV) is a recently re-emerged health problem in Europe. In Italy, an increasing number of outbreaks of West Nile disease, with occurrences of human cases, have been reported since 2008. This is particularly true in northern Italy, where entomological surveillance systems have been implemented at a regional level. The aim of this study was to use, for the first time, all the entomological data collected in the five regions undergoing surveillance for WNV in northern Italy to characterize the viral circulation (at a spatial and temporal scale), identify potential mosquito vectors, and specify relationships between virus circulation and meteorological conditions. In 2013, 286 sites covering the entire Pianura Padana area were monitored. A total of 757,461 mosquitoes were sampled. Of these, 562,079 were tested by real-time PCR in 9,268 pools, of which 180 (1.9%) were positive for WNV. The largest part of the detected WNV sequences belonged to lineage II, demonstrating that, unlike those in the past, the 2013 outbreak was mainly sustained by this WNV lineage. This surveillance also detected the Usutu virus, a WNV-related flavivirus, in 241 (2.6%) pools. The WNV surveillance systems precisely identified the area affected by the virus and detected the viral circulation approximately two weeks before the occurrence of onset of human cases. Ninety percent of the sampled mosquitoes were Culex pipiens, and 178/180 WNV-positive pools were composed of only this species, suggesting this mosquito is the main WNV vector in northern Italy. A significantly higher abundance of the vector was recorded in the WNV circulation area, which was characterized by warmer and less rainy conditions and greater evapotranspiration compared to the rest of the Pianura Padana, suggesting that areas exposed to these conditions are more suitable for WNV circulation. This observation highlights warmer and less rainy conditions as factors able to enhance WNV circulation and cause virus spillover outside the sylvatic cycle.

Published

2015

7. Arctic lineage-canine distemper virus as a cause of death in Apennine wolves (Canis lupus) in Italy.

Author

Daria Di Sabatino, Alessio Lorusso, Cristina E Di Francesco, Leonardo Gentile, Vincenza Di Pirro, Anna Lucia Bellacicco, Armando Giovannini, Gabriella Di Francesco, Giuseppe Marruchella, Fulvio Marsilio, and Giovanni Savini

Subjects

Medicine, Science

Abstract

Canine distemper virus (CDV) infection is a primary threat affecting a wide number of carnivore species, including wild animals. In January 2013, two carcasses of Apennine wolves (Canis lupus) were collected in Ortona dei Marsi (L'Aquila province, Italy) by the local Veterinary Services. CDV was immediately identified either by RT-PCR or immunohistochemistry in lung and central nervous tissue samples. At the same time, severe clinical signs consistent with CDV infection were identified and taped (Videos S1-S3) from three wolves rescued in the areas surrounding the National Parks of the Abruzzi region by the Veterinary Services. The samples collected from these symptomatic animals also turned out CDV positive by RT-PCR. So far, 30 carcasses of wolves were screened and CDV was detected in 20 of them. The sequencing of the haemagglutinin gene and subsequent phylogenetic analysis demonstrated that the identified virus belonged to the CDV Arctic lineage. Strains belonging to this lineage are known to circulate in Italy and in Eastern Europe amongst domestic dogs. To the best of our knowledge this is the first report of CDV Arctic lineage epidemics in the wild population in Europe.

Published

2014

8. West Nile Virus Surveillance in 2013 via Mosquito Screening in Northern Italy and the Influence of Weather on Virus Circulation

Author

Ana Moreno, Mario Chiari, Stefania Cazzin, Maria Cristina Radaelli, Gioia Capelli, Cristina Casalone, Fabrizio Montarsi, Paola Angelini, Laura Gemma Brenzoni, Barbara Iulini, Stefano Marangon, Silvia Ravagnan, Giorgio Varisco, Marino Prearo, Alessandro Albieri, Davide Lelli, Simone Martini, Mariagrazia Zanoni, Manlio Palei, Paolo Bonilauri, Andrea Mosca, Lebana Bonfanti, Michele Dottori, Paolo Mulatti, Francesca Russo, S. Natalini, Romeo Bellini, Marco Tamba, Isabella Monne, Giovanni Savini, Maria Goffredo, Mattia Calzolari, Paola Modesto, Silvia Bertolini, Francesco Defilippo, Alessandra Pautasso, and Marco Farioli

Subjects

Culex, viruses, Zoology, lcsh:Medicine, Disease Outbreaks, Culex pipiens, Animals, Humans, lcsh:Science, Weather, Disease surveillance, Multidisciplinary, biology, lcsh:R, Outbreak, Correction, virus diseases, biology.organism_classification, Virology, Insect Vectors, nervous system diseases, Flavivirus, Italy, Vector (epidemiology), Epidemiological Monitoring, Sylvatic cycle, lcsh:Q, Usutu virus, West Nile virus, West Nile Fever, Research Article

Abstract

West Nile virus (WNV) is a recently re-emerged health problem in Europe. In Italy, an increasing number of outbreaks of West Nile disease, with occurrences of human cases, have been reported since 2008. This is particularly true in northern Italy, where entomological surveillance systems have been implemented at a regional level. The aim of this study was to use, for the first time, all the entomological data collected in the five regions undergoing surveillance for WNV in northern Italy to characterize the viral circulation (at a spatial and temporal scale), identify potential mosquito vectors, and specify relationships between virus circulation and meteorological conditions. In 2013, 286 sites covering the entire Pianura Padana area were monitored. A total of 757,461 mosquitoes were sampled. Of these, 562,079 were tested by real-time PCR in 9,268 pools, of which 180 (1.9%) were positive for WNV. The largest part of the detected WNV sequences belonged to lineage II, demonstrating that, unlike those in the past, the 2013 outbreak was mainly sustained by this WNV lineage. This surveillance also detected the Usutu virus, a WNV-related flavivirus, in 241 (2.6%) pools. The WNV surveillance systems precisely identified the area affected by the virus and detected the viral circulation approximately two weeks before the occurrence of onset of human cases. Ninety percent of the sampled mosquitoes were Culex pipiens, and 178/180 WNV-positive pools were composed of only this species, suggesting this mosquito is the main WNV vector in northern Italy. A significantly higher abundance of the vector was recorded in the WNV circulation area, which was characterized by warmer and less rainy conditions and greater evapotranspiration compared to the rest of the Pianura Padana, suggesting that areas exposed to these conditions are more suitable for WNV circulation. This observation highlights warmer and less rainy conditions as factors able to enhance WNV circulation and cause virus spillover outside the sylvatic cycle.

Published

2015

9. Spatio-Temporal Identification of Areas Suitable for West Nile Disease in the Mediterranean Basin and Central Europe

Author

Silvia Declich, Luca Candeloro, Federica Monaco, Carla Ippoliti, Paolo Calistri, Caterina Rizzo, Annamaria Conte, Maria Luisa Danzetta, Salah Hammami, R. Bruno, Giovanni Savini, Fabrizio De Massis, Daria Di Sabatino, Mehdi El Harrak, Abdennasser Benjelloun, Thameur Ben Hassine, and Bouchra Belkadi

Subjects

Mediterranean climate, Climate, lcsh:Medicine, Context (language use), Environment, Biology, Mediterranean Basin, Normalized Difference Vegetation Index, Spatio-Temporal Analysis, Environmental protection, medicine, Animals, Humans, Horses, lcsh:Science, Multidisciplinary, Middle East, Mediterranean Region, lcsh:R, virus diseases, Enhanced vegetation index, Seasonality, medicine.disease, Europe, Fishery, Habitat, lcsh:Q, Horse Diseases, West Nile virus, West Nile Fever, geographic locations, Research Article

Abstract

West Nile virus (WNV) is a mosquito-transmitted Flavivirus belonging to the Japanese encephalitis antigenic complex of the Flaviviridae family. Its spread in the Mediterranean basin and the Balkans poses a significant risk to human health and forces public health officials to constantly monitor the virus transmission to ensure prompt application of preventive measures. In this context, predictive tools indicating the areas and periods at major risk of WNV transmission are of paramount importance. Spatial analysis approaches, which use environmental and climatic variables to find suitable habitats for WNV spread, can enhance predictive techniques. Using the Mahalanobis Distance statistic, areas ecologically most suitable for sustaining WNV transmission were identified in the Mediterranean basin and Central Europe. About 270 human and equine clinical cases notified in Italy, Greece, Portugal, Morocco, and Tunisia, between 2008 and 2012, have been considered. The environmental variables included in the model were altitude, slope, night time Land Surface Temperature, Normalized Difference Vegetation Index, Enhanced Vegetation Index, and daily temperature range. Seasonality of mosquito population has been modelled and included in the analyses to produce monthly maps of suitable areas for West Nile Disease. Between May and July, the most suitable areas are located in Tunisia, Libya, Egypt, and North Cyprus. Summer/Autumn months, particularly between August and October, characterize the suitability in Italy, France, Spain, the Balkan countries, Morocco, North Tunisia, the Mediterranean coast of Africa, and the Middle East. The persistence of suitable conditions in December is confined to the coastal areas of Morocco, Tunisia, Libya, Egypt, and Israel.

Published

2015

10. Arctic Lineage-Canine Distemper Virus as a Cause of Death in Apennine Wolves (Canis lupus) in Italy

Author

Gabriella Di Francesco, Cristina Esmeralda Di Francesco, Armando Giovannini, Fulvio Marsilio, A. L. Bellacicco, Giuseppe Marruchella, Vincenza Di Pirro, Leonardo Gentile, Daria Di Sabatino, Giovanni Savini, and Alessio Lorusso

Subjects

RNA viruses, Veterinary medicine, Epidemiology, viruses, animal diseases, Veterinary Microbiology, lcsh:Medicine, Viral classification, Cause of Death, Carnivore, lcsh:Science, Distemper Virus, Canine, education.field_of_study, Multidisciplinary, Systemic lupus erythematosus, biology, Reverse Transcriptase Polymerase Chain Reaction, virus diseases, Europe, Phylogenetics, Canis, Italy, Veterinary Diseases, Veterinary Pathology, Research Article, Lineage (genetic), Molecular Sequence Data, Population, Zoology, Animals, Wild, Microbiology, Infectious Disease Epidemiology, Virus, Veterinary Epidemiology, Virology, medicine, Animals, Evolutionary Systematics, education, Biology, Evolutionary Biology, Wolves, Population Biology, Canine distemper, lcsh:R, medicine.disease, biology.organism_classification, Arctic, lcsh:Q, Veterinary Science

Abstract

Canine distemper virus (CDV) infection is a primary threat affecting a wide number of carnivore species, including wild animals. In January 2013, two carcasses of Apennine wolves (Canis lupus) were collected in Ortona dei Marsi (L'Aquila province, Italy) by the local Veterinary Services. CDV was immediately identified either by RT-PCR or immunohistochemistry in lung and central nervous tissue samples. At the same time, severe clinical signs consistent with CDV infection were identified and taped (Videos S1-S3) from three wolves rescued in the areas surrounding the National Parks of the Abruzzi region by the Veterinary Services. The samples collected from these symptomatic animals also turned out CDV positive by RT-PCR. So far, 30 carcasses of wolves were screened and CDV was detected in 20 of them. The sequencing of the haemagglutinin gene and subsequent phylogenetic analysis demonstrated that the identified virus belonged to the CDV Arctic lineage. Strains belonging to this lineage are known to circulate in Italy and in Eastern Europe amongst domestic dogs. To the best of our knowledge this is the first report of CDV Arctic lineage epidemics in the wild population in Europe.

Published

2014