scholarly journals Selection of Monitoring points for the Number and Infectivity of the Main Vectors of West Nile Virus in the Volgograd Region

2022 ◽  
Vol 20 (6) ◽  
pp. 20-27
Author(s):  
N. V. Boroday ◽  
A. V. Nesgovorova ◽  
V. F. Fomina ◽  
A. K. Mendygalieva ◽  
A. A. Baturin ◽  
...  
Keyword(s):  
West Nile Virus ◽  
Infection Rate ◽  
Water Body ◽  
Floodplain Forest ◽  
Water Bodies ◽  
West Nile Fever ◽  
West Nile ◽  
Volgograd Region ◽  
Entomological Monitoring ◽  
Summer Cottage

Relevance. Since 1999, the incidence of West Nile fever has been recorded in the Volgograd region. The main vectors of West Nile virus in Russia are Cx mosquitoes. pipiens L. and Cx. modestus Fic. An objective assessment of the entomological situation and infection rate of these species within the framework of epidemiological surveillance of West Nile fever is possible only in biotopes with sufficiently high numbers of mosquitoes; therefore, the choice of sampling points is an urgent task. Purpose of the study. Analysis of the West Nile virus main vectors - mosquitoes Cx. pipiens L. and Cx. modestus Fic. average number, occurrence and infection rate at the various open biotopes of the Volgograd region to justify the choice of optimal points for entomological monitoring. Materials and methods. The catching and accounting of the mosquitoes’ number was carried out in 2015–2019 from May to August in the third decade of each month in a floodplain forest, at a personal plot, a summer cottage and on bank of water body. To catch mosquitoes, automatic traps Mosquito Magnet Executive and LovKom-1 were used. The accounting unit was the number of mosquitoes collected in both traps per trap-night. The average number, the index of occurrence and infection rate were determined by generally accepted methods. Detection of West Nile virus RNA in samples of mosquito pool suspensions was performed by RT-PCR using the AmpliSense WNV-FL reagent kit. The results were statistically processed using Microsoft Excel 2016 (Microsoft Corporation, USA). Results. In the 2015-2019 period, 17468 mosquitoes of the genus Culex: 8258 species – Cx. pipiens L., 9210 species – Cx. modestus Fic. were collected in over than 80 trap nights at the selected stationary points of the Volgograd region. Average number of Cx. pipiens L. was: in the floodplain forest – 4.6 individuals per 1 trap-night; at the personal plot – 183.9; at the summer cottage – 30.2; on the bank of water body – 194.3. Average number of Cx. modestus Fic. was: in the floodplain forest – 5.2 individuals per 1 trapnight; at the personal plot – 8.3; at the summer cottage – 2.5;on the bank of water body – 444.6. Occurrence index Cx. pipiens L. was highon the bank of water body and at the personal plot (47.1% and 44.5%, respectively), much lower – at the summer cottage (7.3%) and in the floodplain forest (1.1%). Level of WNV infection among Cx. pipiens L.on a personal plot was 5.4%, on a summer cottage – 3.6%,on the bank of water body – 2.2%. No infected samples were found among Cx. pipiens L. collected from the floodplain forest. WNV RNA in samples from mosquitoes Cx. modestus Fic. found only in individuals caughton the bank of water body. Their infection rate was 1.2%. Discussion. Ecological plasticity of Cx. pipiens L. mosquitoes allows them to live in settlements and near water bodies. Mosquitoes of the species Cx. modestus Fic. do not fly away from ponds, breeding places. Conclusion. High numbers and occurrence of the Cx. pipiens L. mosquitoes were observed at a personal plot within the city andon the bank of water body, Cx. modestus Fic. –on the bank of water body. WNV RNA positive samples were detected from mosquitoes collected at the personal plot, the summer cottage andon the bank of water body. To monitor the number and infection rate among Cx. pipiens L., points of registration and sampling should be placed in open stationson personal plots in settlements, banks of water bodies and summer cottages. We recommend to carry entomological monitoring for Cx. modestus Fic. out onlyon the banks of water bodies along the water's edge in reed thickets. The placement of the main WNV vectors number and infection rate monitoring points in the floodplain forest is not advisable.

scholarly journals Results of the West Nile Fever Agent Monitoring in the Russian Federation in 2019 and the Forecast of Epidemic Situation Development in 2020

2020 ◽  
pp. 51-60 ◽  
Author(s):  
E. V. Putintseva ◽  
I. O. Alekseychik ◽  
S. N. Chesnokova ◽  
S. K. Udovichenko ◽  
N. V. Boroday ◽  
...  
Keyword(s):  
West Nile Virus ◽  
Russian Federation ◽  
Climatic Conditions ◽  
European Part ◽  
West Nile Fever ◽  
The West ◽  
West Nile ◽  
Volgograd Region ◽  
European Part Of Russia ◽  
The Russian Federation

The trend towards an increase in the West Nile fever incidence among the population in the Russian Federation, recorded in the season of 2018, continued and led to a significant increase in the incidence in 2019 (the indicator was 2 times higher than the long-term average). The features of manifestations of the epidemiological process of WNF in 2019 were identified: early registration of cases of the disease, activation of natural and natural-anthropourgic foci in the Southern Federal District (90 % of the total incidence in the Russian Federation), an increase in the share of neuro-invasive forms, dominance of patients aged 50 and older in the structure of the incidence, late epidemic season ending. It was established that in the season of 2019, the lineage 2 of WNV circulated in the European part of Russia. In the Volgograd Region, simultaneous presence of the West Nile virus and Sindbis virus in mosquitoes Culex pipiens and Culex modestus was identified. It was shown that the most significant factors for predicting the epidemiological situation on West Nile fever in the Volgograd Region are the average seasonal summer air temperature and monthly average indicators of relative humidity in the spring and summer periods, and the average monthly air temperatures in the spring and summer in the Rostov Region. In the Astrakhan Region, a significant correlation dependence of the influence of the considered factors on the incidence of the population has not been established. The forecast of the development of epidemic situation in 2020 does not exclude a possible increase in the incidence in the territories of the European part of Russia, endemic for West Nile fever, and the occurrence of local outbreaks in individual constituent entities, if the complex of climatic conditions and social factors favorable for West Nile virus coincide.

scholarly journals Increase in human West Nile and Usutu virus infections, Austria, 2018

2018 ◽  
Vol 23 (43) ◽  
Author(s):  
Stephan W. Aberle ◽  
Jolanta Kolodziejek ◽  
Christof Jungbauer ◽  
Karin Stiasny ◽  
Judith H. Aberle ◽  
...  
Keyword(s):  
West Nile Virus ◽  
Blood Donors ◽  
Blood Donation ◽  
Virus Infections ◽  
West Nile Fever ◽  
West Nile ◽  
Usutu Virus ◽  
Neuroinvasive Disease ◽  
Human West Nile Virus ◽  
Imported Cases

Between 28 June and 17 September 2018, 27 cases of human West Nile virus infections were recorded in Austria; four cases of West Nile neuroinvasive disease, 11 cases of West Nile fever, six infections detected by blood donation screening and six imported cases. In addition, 18 cases of human Usutu virus infections (all blood donors) were recorded. This is the highest number of annual infections recorded in Austria since the introduction of both viruses.

scholarly journals Human cases of West Nile Virus Infection in north-eastern Italy, 15 June to 15 November 2010

2011 ◽  
Vol 16 (33) ◽  
Author(s):  
L Barzon ◽  
M Pacenti ◽  
R Cusinato ◽  
M Cattai ◽  
E Franchin ◽  
...  
Keyword(s):  
West Nile Virus ◽  
West Nile Virus Infection ◽  
West Nile Fever ◽  
Antibody Prevalence ◽  
Igg Antibody ◽  
West Nile ◽  
The Third ◽  
Neuroinvasive Disease ◽  
Northern Areas ◽  
North Eastern

In 2010, for the third consecutive year, human cases of West Nile virus (WNV) infection, including three confirmed cases of neuroinvasive disease and three confirmed cases of West Nile fever, were identified in north-eastern Italy. While in 2008 and 2009 all human cases of WNV disease were recorded in the south of the Veneto region, cases of WNV disease in 2010 additionally occurred in two relatively small northern areas of Veneto, located outside those with WNV circulation in the previous years. WNV IgG antibody prevalence in blood donors resident in Veneto was estimated as ranging from 3.2 per 1,000 in areas not affected by cases of WNV disease to 33.3 per 1,000 in a highly affected area of the Rovigo province. No further autochthonous human cases of WNV disease were notified in Italy in 2010. The recurrence of human cases of WNV infection for the third consecutive year strongly suggests WNV has become endemic in north-eastern Italy.

scholarly journals Experience in the implementation of epidemiological surveillance of West Nile fever in the Volgograd region

2015 ◽  
Vol 20 (1) ◽  
pp. 49-55
Author(s):  
M. V Monastyrskiy ◽  
N. V Shestopalov ◽  
V. G Akimkin ◽  
Yu. V Demina
Keyword(s):  
Public Health ◽  
Epidemiological Surveillance ◽  
West Nile Fever ◽  
Management Decisions ◽  
West Nile ◽  
Epidemic Process ◽  
Volgograd Region ◽  
Necessary And Sufficient ◽  
Epidemiological Situation

West Nilefever (WNF) is the most important arbovirus infectionfor the Volgograd region. The observed decrease in the WNF incidence from 2001 to 2006, in 2008 and2009, the reducing the number ofsevere forms ofdiseases only give evidence ofa temporary regression of the epidemic process in the territory of the Volgograd region. In the territory of the Volgograd region there are prerequisites and harbingers of the complication of epidemiological situation on West Nile fever. The aim of the performed in the Volgograd region epidemiological surveillance for WNF is to provide the information necessary and sufficient for the analysis of the epidemiological situation, as well as to determine the direction of policy and activities in public health and in making management decisions.

scholarly journals WEST NILE FEVER IN THE SARATOV REGION IN 2013-2015

2017 ◽  
Vol 62 (5) ◽  
pp. 219-226
Author(s):  
E. V. Kazorina ◽  
T. Yu. Krasovskaya ◽  
A. V. Kazantsev ◽  
E. V. Naydenova ◽  
I. N. Sharova ◽  
...  
Keyword(s):  
West Nile Virus ◽  
Clinical Samples ◽  
West Nile Fever ◽  
West Nile ◽  
Saratov Region ◽  
Stable Domain ◽  
Field Samples ◽  
Live Stock ◽  
Regional Population ◽  
The City

West Nile virus (WNV) circulation in the territory of Saratov region and its role in the infectious pathology were investigated. For this purpose, in studies conducted in 2013-2015, suspensions of bloodsucking arthropods, organs of birds and small mammals were analyzed for the presence of WNV markers (antigens and/or RNA). The seroprevalence level in live-stock animals and population of the region was evaluated; clinical samples from patients with symptoms compatible with West Nile fever (WNF) were analyzed. As a result of the investigations, WNV markers were detected in field samples gathered in natural biotopes and in the city of Saratov. Immunity to WNV was detected in horses. A stable domain of persons with immunity to this agent was revealed among regional population. Patients with WNF have been annually registered in the region since 2012. The obtained results confirm active circulation of WNF in the Saratov region, as well as formation of stable natural and anthropourgic foci.

Vectorial Competence Potential of Culex Quinquefasciatus (Say, 1923) from the Amazon Region to Transmit West Nile Virus Isolated in Brazil

2021 ◽  
Author(s):  
Lúcia Aline Moura Reis ◽  
Eliana Vieira Pinto da Silva ◽  
Maria Nazaré Oliveira Freitas ◽  
Rossela Damasceno Caldeira ◽  
Pedro Arthur da Silva Araújo ◽  
...  
Keyword(s):  
West Nile Virus ◽  
Culex Quinquefasciatus ◽  
Transmission Rate ◽  
Amazon Region ◽  
West Nile Fever ◽  
West Nile ◽  
Potential Vector ◽  
Brazilian Strain ◽  
Vectorial Competence ◽  
Viral Titers

Abstract The West Nile virus is characterized as a neurotropic pathogen that causes the West Nile fever. It is transmitted by mosquitoes, mainly of the Culex genus. In 2018, the Evandro Chagas Institute carried out the first isolation of WNV strain from a horse brain sample and in 2021 the same institute also isolated the WNV in a pool of mosquitoes of the Culex spp. from the Carajás region (Pará). Thus, this study aimed to determine the vectorial competence of Culex quinquefasciatus from the Amazon region of Brazil for transmission the WNV Brazilian strain. Oral infection of Cx. quinquefasciatus females belonging to F1 generation was performed with infected blood with WNV. Subsequently, analysis of infection, dissemination and transmission rates was performed, as well as verification of viral titers in the samples. The study demonstrated that Cx. quinquefasciatus can act as a potential vector of WNV in Brazil, since it was found that the Brazilian strain was able to overcome the host's anatomical barriers and spread to various regions, among them in saliva, in which, despite the low viral titers identified, it had a transmission rate of 100% on the 21st day after infection.

scholarly journals Analysis of the Results of Monitoring Arbovirus Infections in the Volgograd Region in 2019

2021 ◽  
Vol 20 (1) ◽  
pp. 51-59
Author(s):  
A. O. Negodenko ◽  
E. V. Molchanova ◽  
D. R. Prilepskaya ◽  
P. Sh. Konovalov ◽  
O. A. Pavlyukova ◽  
...  
Keyword(s):  
West Nile Virus ◽  
Sindbis Virus ◽  
Hemorrhagic Fever ◽  
Virus Antigen ◽  
Farm Animals ◽  
West Nile ◽  
Hemorrhagic Fever Virus ◽  
Blood Sucking ◽  
Volgograd Region ◽  
California Serogroup

Relevance. Natural and climatic conditions, a variety of species composition of arthropods and vertebrates determine the possibility of circulation of arboviruses in the Volgograd region. The existence of natural foci of some arbovirus infections and the possibility of the formation of others suggests the need for annual monitoring of the causative agents of arbovirus diseases. Аim. Evaluation of the results of monitoring of arbovirus infections in the Volgograd region in 2019.Materials and methods: 806 blood serum samples from donors, 44 blood serum samples from febrile sick people, 300 blood serum samples from horses and 94 pools of blood-sucking mosquitoes were examined by immunofernal analysis. Result of the study of serum samples from donors in the Volgograd region, in 140 (17.4%) of 806 were found to have antibodies to the pathogen of West Nile fever (in 35 (4.3%) – IgM, in 105 (13.0%) – IgG), in 7 (2.2%) of 319 – to the Crimean hemorrhagic fever virus (in 4 (1.3%) – IgM, in 3 (0.9%) –IgG), and in 7 (2.9%) of 240 – IgG to the viruses of the California serogroup. Specific antibodies against viruses of Sindbis, Batai and Uukuniemi in the samples was not detected. The largest number of positive samples with the presence of IgG and IgM to the West Nile virus was found among residents of Volgograd (61 out of 240, 25.4%) and Volzhsky (25 out of 100, 25, 0%). Among 44 blood serums of febrile patients, 1 sample (2.3%) was found to contain an antigen of the Sindbis virus, and 2 samples (4.5%) – antigens California serogroup viruses. Specific immunoglobulins against West Nile virus were detected in 84 (28%) of 300 blood serums of farm animals (horses). In the study of 94 samples of field material (blood-sucking mosquitoes), West Nile virus antigen was detected in 14 (14.9%), Sindbis virus – in one sample (1.0%), Batai virus – in four samples (4.2%). Conclusions: the obtained results, along with the circulation of West Nile virus and Crimean hemorrhagic fever virus virus in the Volgograd region, indicate the presence of Sindbis, Batai and California serogroup viruses and necessitate further study of their role in the infectious pathology of the population.

scholarly journals Spatiotemporal Analysis of West Nile Virus Epidemic in South Banat District, Serbia, 2017–2019

Animals ◽  
2021 ◽  
Vol 11 (10) ◽  
pp. 2951
Author(s):  
Sonja Radojicic ◽  
Aleksandar Zivulj ◽  
Tamas Petrovic ◽  
Jakov Nisavic ◽  
Vesna Milicevic ◽  
...  
Keyword(s):  
West Nile Virus ◽  
Negative Binomial ◽  
Climatic Factors ◽  
The United States ◽  
Wild Birds ◽  
Water Levels ◽  
Maximum Temperature ◽  
Negative Binomial Regression Model ◽  
West Nile Fever ◽  
West Nile

West Nile virus (WNV) is an arthropod-born pathogen, which is transmitted from wild birds through mosquitoes to humans and animals. At the end of the 20th century, the first West Nile fever (WNF) outbreaks among humans in urban environments in Eastern Europe and the United States were reported. The disease continued to spread to other parts of the continents. In Serbia, the largest number of WNV-infected people was recorded in 2018. This research used spatial statistics to identify clusters of WNV infection in humans and animals in South Banat County, Serbia. The occurrence of WNV infection and risk factors were analyzed using a negative binomial regression model. Our research indicated that climatic factors were the main determinant of WNV distribution and were predictors of endemicity. Precipitation and water levels of rivers had an important influence on mosquito abundance and affected the habitats of wild birds, which are important for maintaining the virus in nature. We found that the maximum temperature of the warmest part of the year and the annual temperature range; and hydrographic variables, e.g., the presence of rivers and water streams were the best environmental predictors of WNF outbreaks in South Banat County.

scholarly journals Predicting the spatio-temporal spread of West Nile virus in Europe

2021 ◽  
Vol 15 (1) ◽  
pp. e0009022
Author(s):  
José-María García-Carrasco ◽  
Antonio-Román Muñoz ◽  
Jesús Olivero ◽  
Marina Segura ◽  
Raimundo Real
Keyword(s):  
West Nile Virus ◽  
Large Scale ◽  
River Basins ◽  
Maximum Temperature ◽  
Environmental Predictors ◽  
Migration Routes ◽  
West Nile Fever ◽  
Environmental Model ◽  
West Nile ◽  
First Case

West Nile virus is a widely spread arthropod-born virus, which has mosquitoes as vectors and birds as reservoirs. Humans, as dead-end hosts of the virus, may suffer West Nile Fever (WNF), which sometimes leads to death. In Europe, the first large-scale epidemic of WNF occurred in 1996 in Romania. Since then, human cases have increased in the continent, where the highest number of cases occurred in 2018. Using the location of WNF cases in 2017 and favorability models, we developed two risk models, one environmental and the other spatio-environmental, and tested their capacity to predict in 2018: 1) the location of WNF; 2) the intensity of the outbreaks (i.e. the number of confirmed human cases); and 3) the imminence of the cases (i.e. the Julian week in which the first case occurred). We found that climatic variables (the maximum temperature of the warmest month and the annual temperature range), human-related variables (rain-fed agriculture, the density of poultry and horses), and topo-hydrographic variables (the presence of rivers and altitude) were the best environmental predictors of WNF outbreaks in Europe. The spatio-environmental model was the most useful in predicting the location of WNF outbreaks, which suggests that a spatial structure, probably related to bird migration routes, has a role in the geographical pattern of WNF in Europe. Both the intensity of cases and their imminence were best predicted using the environmental model, suggesting that these features of the disease are linked to the environmental characteristics of the areas. We highlight the relevance of river basins in the propagation dynamics of the disease, as outbreaks started in the lower parts of the river basins, from where WNF spread towards the upper parts. Therefore, river basins should be considered as operational geographic units for the public health management of the disease.

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