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NCT07291206
Arboviruses (arthropod-borne viruses), are a group of RNA viruses that are transmitted to vertebrate hosts by hematophagous arthropods like mosquitos, ticks, and sandflies. In Italy, arboviruses pose a considerable public health concern because of their potential to infect humans and cause severe emergent or re-emergent diseases. Over the past few decades, arboviruses have already been responsible for epidemic outbreaks in Italy, and travels increase the risk of introducing new species previously confined to tropical and sub-tropical regions. Some arboviral infections, like West Nile Virus (WNV), Toscana Virus (TOSV), Sandfly Fever Sicily Virus (SFSV), Sandfly Fever Naples Virus (SFNV), Usutu Virus (USUV), and tick-borne encephalitis virus (TBEV), are considered endemic in Italy. Others, such as Chikungunya Virus (CHIKV), Dengue Virus (DENV), Zika Virus (ZIKV), Yellow Fever Virus (YFV) and Japanese encephalitis Virus (JEV) are under surveillance since imported infections could lead to local outbreaks and subsequent endemic circulation in Italy. Moreover, the increased global travel and unpredictable climate changes could facilitate the spread of arboviral infections. Adequate diagnostic tests play a crucial role in disease surveillance, identifying potential associations between previous infections and chronic diseases and controlling outbreaks by breaking transmission chains. Furthermore, immunological tests can help predict disease severity in healthy and immunocompromised subjects and identify patients at risk for severe disease during secondary infections. In parallel with direct molecular diagnosis tests, the development of an immunological test capable of determining specific arbovirus T cell response may be useful for diagnostic as well as for epidemiological and investigative purposes. Furthermore, its development provides a set of initial knowledge on which to base the construction of other immunological tests for future emerging viruses, providing tools to counter new epidemic outbreaks. At the same time, the evaluation of immune response is necessary in order to control and contain the spread of these viruses. In conclusion, the present study aims to investigate immunological responses in patients infected with endemic arboviruses circulating in Italy those that could potentially emerging in the future. Molecular tests have a reduced detectability window in biological samples, which is why often they are not useful for making a diagnosis. Serological tests can give cross-reactivity phenomena between some arboviruses, making differential diagnosis difficult and often inconclusive. Objective is to assess sensitivity of immunological assays for arboviruses-specific T Cell Response (ARBOspot) in order to use them in combination with conventional diagnostic methods.
NCT04619823
Arboviruses, diseases transmitted to humans by the bite of an insect vector, are a major public health problem, particularly in tropical and sub-tropical countries. In New Caledonia, dengue epidemics are recurrent and may be associated with the co-circulation of other arboviruses such as Zika or chikungunya. The virological determinants which condition the occurrence of these epidemics may be linked to an increased vectorial competence of the vector mosquito Aedes aegypti for a particular viral isolate. In fact, the Aedes aegypti mosquito is infected by making a blood meal on a person infected with an arbovirus. The virus infects its digestive tract, then spreads throughout the mosquito's body until it reaches its salivary glands. The virus is then present in the saliva and will be injected into the human host during a new blood meal. Some viral variants are best transmitted by Aedes aegypti. In general, the study of this vectorial competence is carried out by experiments in the laboratory during which an artificial blood meal composed of mammalian blood (human, rabbit, etc.) is mixed with a viral stock. Carrying out deported blood meals during which blood collected from patients infected with an arbovirus is used to gorge mosquitoes makes it possible to place oneself in experimental conditions as close as possible to the natural cycle of transmission of arboviruses. In the human host, cells of the myeloid lineage present in the peripheral blood constitute preferred targets of replication for arboviruses. At the same time, the peripheral blood cells of patients are activated in response to infection and secrete many soluble factors released into the blood of patients. The study of blood samples from patients infected with arboviruses is therefore of prime importance for understanding both the replicative mechanisms of arboviruses but also the immune response they induce.
NCT03552094
The dengue, Zika and chikungunya arboviruses represent potentially severe infections to which the New Caledonian population is exposed. In the absence of specific treatment or vaccine, vector control remains the method of choice to limit their spread. However, the traditional methods of prevention and vector control measure today face their limits: mosquito resistance to insecticides, difficulty of access and destruction of breeding areas... The World Mosquito Program Noumea project is based on the artificial colonization of the mosquito vector Aedes aegypti by the endosymbiotic bacteria Wolbachia, which reduces its ability to transmit arboviruses. The breeding of mosquitoes carrying the bacterium Wolbachia in the laboratories of the Institut Pasteur of New Caledonia requires the use of human blood samples for mosquito gorging. The objective of the research is to generate, maintain and amplify Aedes aegypti Caledonian lineages carrying the Wolbachia bacteria for the planned insect release program in Noumea.
NCT04954352
A local network is being set up to study the impact of arboviruses in our region. It is committed to a one-health approach, in particular with research without a priori for new viruses hosted among vectors and wildlife. The candidates identified by high throughput sequencing approaches will serve as a basis for the development of serological and molecular tools for their detections. These tools will be used to assess the possible circulation of these new viruses in humans in biological collections created within the framework of this project Arbodocc .
NCT00116766
Isolated minority communities in China use traditional plant-based methods of mosquito control. This study is evaluating 4 plants used in this way by monitoring mosquitoes entering houses on nights when the plants are being used in this way. A blind, placebo controlled study design will monitor plant use and record mosquito species / numbers caught in CDC light traps indoors over 3 months.