Your search keyword '"mosquito-borne disease"' showing total 692 results

1. Evaluation of the Protective Efficacy of a Spatial Repellent to Reduce Malaria Prevalence in Uganda (Mossie-GO)

Author

Malaria Consortium and ARCTECH INNOVATION LIMITED

Published

2024

2. The Distribution, Diversity, and Control of Dirofilariosis in Brazil: A Comprehensive Review.

Author

Chocobar, Marianna Laura Elis, Schmidt, Elizabeth Moreira dos Santos, Weir, William, and Panarese, Rossella

Subjects

*VETERINARY public health, *MOSQUITO-borne diseases, *MEDICAL personnel, *ZOONOSES, *DIROFILARIA immitis, TROPICAL climate

Abstract

Simple Summary: Dirofilariosis, a zoonotic mosquito-borne disease, remains an under-studied condition in several areas of Brazil, despite its long-standing presence. This review aims to draw together prevalence data from epidemiological studies and case reports conducted in dogs over the last decade and in cats, wildlife, and humans over the last twenty years to define the distribution and prevalence of Dirofilaria spp. within the country and highlight the challenges associated with its diagnosis, treatment, and control. While Dirofilaria immitis is the main species circulating in Brazil, concerns have been raised in recent years about the presence of genetically distinct strains that may be more virulent than their Old World counterparts. In light of this and the widespread distribution of the parasite among both Brazilian coastal and non-coastal areas, further studies are required to characterise the disease. Additionally, there is a need to increase awareness of this neglected disease among health professionals in Brazil and to understand and minimise its impact on both veterinary and public health. Brazil's extensive coastline, tropical and subtropical climate, and well-preserved environment represent a conducive setting for dirofilariosis, a zoonotic mosquito-borne disease. Although this condition has long been recognised in the country, it has been relatively under-studied, and it is currently considered to be an emerging disease. Diagnosis, treatment, and control remain challenging due to the extensive gaps in knowledge. In order to help address this issue, this review aims to (i) summarise the available literature on the distribution of Dirofilaria spp. in Brazilian dogs over the last decade, (ii) review case reports of dirofilariosis in cats, wild animals, and humans over the last twenty years, and (iii) highlight the benefits of taking a One Health approach to managing this disease. While there have been several prevalence studies in dogs, disease distribution is poorly characterised in cats, and little is known about the occurrence of the parasite in wildlife. Human cases are sporadically reported, and no large-scale studies have been undertaken to date. Evidence indicates that Dirofilaria immitis is the main species circulating in Brazil, although Dirofilaria repens has also been detected. Molecular studies have also suggested the circulation of a highly virulent form of D. immitis, which may be genetically distinct from those of the Old World. A programme of epidemiological, ecological, genomic, and pathogenicity-based studies is required to quantify the impact of dirofilariosis in Brazil on both veterinary and public health and to inform others on its control. [ABSTRACT FROM AUTHOR]

Published

2024

3. Modeling mosquito-borne disease dynamics via stochastic differential equations and generalized tempered stable distribution.

Author

Sabbar, Yassine and Raezah, Aeshah A.

Subjects

MOSQUITO-borne diseases, STOCHASTIC differential equations, STOCHASTIC analysis, JUMP processes, DISEASE incidence

Abstract

In this study, we introduce an enhanced stochastic model for mosquito-borne diseases that incorporates quarantine measures and employs Lévy jumps with the generalized tempered stable (GTS) distribution. Our proposed model lacks both endemic and disease-free states, rendering the conventional approach of assessing disease persistence or extinction based on asymptotic behavior inapplicable. Instead, we adopt a novel stochastic analysis approach to demonstrate the potential for disease eradication or continuation. Numerical examples validate the accuracy of our results and compare the outcomes of our model with the GTS distribution against the standard system using basic Lévy jumps. By accounting for the heavy-tailed nature of disease incidence or vector abundance, the GTS distribution enhances the precision of epidemiological models and predictions. [ABSTRACT FROM AUTHOR]

Published

2024

4. Modeling mosquito-borne disease dynamics via stochastic differential equations and generalized tempered stable distribution

Author

Yassine Sabbar and Aeshah A. Raezah

Subjects

epidemic model, mosquito-borne disease, gts distribution, lévy jumps, lévy measure, Mathematics, QA1-939

Abstract

In this study, we introduce an enhanced stochastic model for mosquito-borne diseases that incorporates quarantine measures and employs Lévy jumps with the generalized tempered stable (GTS) distribution. Our proposed model lacks both endemic and disease-free states, rendering the conventional approach of assessing disease persistence or extinction based on asymptotic behavior inapplicable. Instead, we adopt a novel stochastic analysis approach to demonstrate the potential for disease eradication or continuation. Numerical examples validate the accuracy of our results and compare the outcomes of our model with the GTS distribution against the standard system using basic Lévy jumps. By accounting for the heavy-tailed nature of disease incidence or vector abundance, the GTS distribution enhances the precision of epidemiological models and predictions.

Published

2024

5. Probabilistic analysis of a disturbed SIQP-SI model of mosquito-borne diseases with human quarantine strategy and independent Poisson jumps

Author

Sabbar, Yassine, Mehdaoui, Mohamed, Tilioua, Mouhcine, and Nisar, Kottakkaran Sooppy

Published

2024

6. Tips and tools to obtain and assess mosquito viromes.

Author

Da Silva, Amanda Gonzalez, Bach, Evelise, Ellwanger, Joel Henrique, and Chies, José Artur Bogo

Abstract

Due to their vectorial capacity, mosquitoes (Diptera: Culicidae) receive special attention from health authorities and entomologists. These cosmopolitan insects are responsible for the transmission of many viral diseases, such as dengue and yellow fever, causing huge impacts on human health and justifying the intensification of research focused on mosquito-borne diseases. In this context, the study of the virome of mosquitoes can contribute to anticipate the emergence and/or the reemergence of infectious diseases. The assessment of mosquito viromes also contributes to the surveillance of a wide variety of viruses found in these insects, allowing the early detection of pathogens with public health importance. However, the study of mosquito viromes can be challenging due to the number and complexities of steps involved in this type of research. Therefore, this article aims to describe, in a straightforward and simplified way, the steps necessary for obtention and assessment of mosquito viromes. In brief, this article explores: the capture and preservation of specimens; sampling strategies; treatment of samples before DNA/RNA extraction; extraction methodologies; enrichment and purification processes; sequencing choices; and bioinformatics analysis. [ABSTRACT FROM AUTHOR]

Published

2024

7. West Nile Virus Infection in Occupational Settings—A Systematic Review.

Author

Odigie, Amienwanlen E., Stufano, Angela, Schino, Valentina, Zarea, Aya Attia Koraney, Ndiana, Linda A., Mrenoshki, Daniela, Ugochukwu, Iniobong C. I., Lovreglio, Piero, Greco, Grazia, Pratelli, Annamaria, Camero, Michele, and Tempesta, Maria

Subjects

WEST Nile fever, WEST Nile virus, AGRICULTURAL laborers, WATCHFUL waiting, MOSQUITO control

Abstract

Background: West Nile virus (WNV) is an emerging mosquito-borne neurotropic virus, belonging to the Flaviviridae family and the Orthoflavivirus genus. The effective control of WNV requires a targeted preventive strategy that also needs the identification of the higher-risk populations. Hence, this study focused on a systematic literature review of WNV-acquired infection in work-related settings and the assessment of the exposure risks among different occupational categories. Methods: A comprehensive search was conducted to identify studies until September 2023 in multiple databases such as PubMed/MEDLINE, SCOPUS and Web of Science, according to the PRISMA 2020 statement. Risk of bias of collected papers was assessed by the ROB tool of the National Toxicology Program's Office of Health Assessment and Translation handbook. Results: A total of 21 studies were included in the systematic review, out of which seventeen were observational studies and four were case reports. Workers identified as at higher risk for WNV infection were military workers, veterinarians, agricultural workers, farmers, and laboratory workers with contact with infected fluids or aerosols. Conclusions: The identification of higher-risk workers could facilitate active surveillance by occupational physicians, which could improve our understanding of the epidemiology of WNV and, in addition, could help tailor appropriate preventive recommendations, reducing the overall burden of disease in high-risk areas. [ABSTRACT FROM AUTHOR]

Published

2024

8. A tangled threesome: understanding arbovirus infection in Aedes spp. and the effect of the mosquito microbiota.

Author

Mantilla-Granados, Juan S., Castellanos, Jaime E., and Velandia-Romero, Myriam Lucía

Subjects

ARBOVIRUS diseases, ARBOVIRUSES, AEDES, AEDES aegypti, MOSQUITOES, AEDES albopictus, MOSQUITO control, INSECTICIDE resistance

Abstract

Arboviral infections transmitted by Aedes spp. mosquitoes are a major threat to human health, particularly in tropical regions but are expanding to temperate regions. The ability of Aedes aegypti and Aedes albopictus to transmit multiple arboviruses involves a complex relationship between mosquitoes and the virus, with recent discoveries shedding light on it. Furthermore, this relationship is not solely between mosquitoes and arboviruses, but also involves the mosquito microbiome. Here, we aimed to construct a comprehensive review of the latest information about the arbovirus infection process in A. aegypti and A. albopictus, the source of mosquito microbiota, and its interaction with the arbovirus infection process, in terms of its implications for vectorial competence. First, we summarized studies showing a new mechanism for arbovirus infection at the cellular level, recently described innate immunological pathways, and the mechanism of adaptive response in mosquitoes. Second, we addressed the general sources of the Aedes mosquito microbiota (bacteria, fungi, and viruses) during their life cycle, and the geographical reports of the most common microbiota in adults mosquitoes. How the microbiota interacts directly or indirectly with arbovirus transmission, thereby modifying vectorial competence. We highlight the complexity of this tripartite relationship, influenced by intrinsic and extrinsic conditions at different geographical scales, with many gaps to fill and promising directions for developing strategies to control arbovirus transmission and to gain a better understanding of vectorial competence. The interactions between mosquitoes, arboviruses and their associated microbiota are yet to be investigated in depth. [ABSTRACT FROM AUTHOR]

Published

2024

9. MODELING THE ROLE OF SEASONAL VARIABILITY ON THE DYNAMICS OF MOSQUITO-BORNE DISEASES.

Author

SISODIYA, OMPRAKASH SINGH, MISRA, O. P., and DHAR, JOYDIP

Subjects

MOSQUITO-borne diseases, MOSQUITO control, INFECTIOUS disease transmission, DISEASE incidence, SEASONS, INSECTICIDES

Abstract

In this article, we have proposed an non-autonomous mathematical model to describe the dynamics of mosquito-borne diseases taking into account seasonal variation. In the proposed model, the disease transmission rate and the growth rate of aquatic mosquito populations are considered seasonally. The non-autonomous model is shown to have a disease-free, globally asymptotically stable cyclic state whenever the time-dependent reproduction number RC(t) is less than unity. From the model analysis, we find that a unique positive endemic periodic solution of a non-autonomous system exists only when RC(t) > 1. The persistence and severity of an epidemic can be described by a time-dependent periodic reproduction number RC(t). Furthermore, it is shown that if RC(t) <1, the disease will not spread and may eventually disappear. We also propose an optimal control problem applied to control the disease with two other parameters namely insecticide and spraying. It has been shown that a control strategy consisting of insecticides and combined spraying can have a synergistic effect in reducing the incidence of mosquito-borne diseases. Finally, numerical simulations are performed to illustrate the results of our analysis. [ABSTRACT FROM AUTHOR]

Published

2024

10. The role of Culex territans mosquitoes in the transmission of Batrachochytrium dendrobatidis to amphibian hosts

Author

Joanna M. Reinhold, Ella Halbert, Megan Roark, Sierra N. Smith, Katherine M. Stroh, Cameron D. Siler, David S. McLeod, and Chloé Lahondère

Subjects

Blood-feeding, Chytrid fungus, Host preference, Mosquito-borne disease, Pathogen transmission, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Mosquitoes are the deadliest organisms in the world, killing an estimated 750,000 people per year due to the pathogens they can transmit. Mosquitoes also pose a major threat to other vertebrate animals. Culex territans is a mosquito species found in temperate zones worldwide that feeds almost exclusively on amphibians and can transmit parasites; however, little is known about its ability to transmit other pathogens, including fungi. Batrachochytrium dendrobatidis (Bd) is a topical pathogenic fungus that spreads through contact. With amphibian populations around the world experiencing mass die-offs and extinctions due to this pathogen, it is critical to study all potential modes of transmission. Because Cx. territans mosquitoes are in contact with their hosts for long periods of time while blood-feeding, we hypothesize that they can transmit and pick up Bd. Methods In this study, we first assessed Cx. territans ability to transfer the fungus from an infected surface to a clean one under laboratory conditions. We also conducted a surveillance study of Bd infections in frogs and mosquitoes in the field (Mountain Lake Biological station, VA, USA). In parallel, we determined Cx. territans host preference via blood meal analysis of field caught mosquitoes. Results We found that this mosquito species can carry the fungus to an uninfected surface, implying that they may have the ability to transmit Bd to their amphibian hosts. We also found that Cx. territans feed primarily on green frogs (Rana clamitans) and bullfrogs (Rana catesbeiana) and that the prevalence of Bd within the frog population at our field site varied between years. Conclusions This study provides critical insights into understanding the role of amphibian-biting mosquitoes in transmitting pathogens, which can be applied to disease ecology of susceptible amphibian populations worldwide. Graphical Abstract

Published

2023

11. The Distribution, Diversity, and Control of Dirofilariosis in Brazil: A Comprehensive Review

Author

Marianna Laura Elis Chocobar, Elizabeth Moreira dos Santos Schmidt, William Weir, and Rossella Panarese

Subjects

Dirofilaria immitis, Dirofilaria repens, mosquito-borne disease, One Health, diagnosis, genomics, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Brazil’s extensive coastline, tropical and subtropical climate, and well-preserved environment represent a conducive setting for dirofilariosis, a zoonotic mosquito-borne disease. Although this condition has long been recognised in the country, it has been relatively under-studied, and it is currently considered to be an emerging disease. Diagnosis, treatment, and control remain challenging due to the extensive gaps in knowledge. In order to help address this issue, this review aims to (i) summarise the available literature on the distribution of Dirofilaria spp. in Brazilian dogs over the last decade, (ii) review case reports of dirofilariosis in cats, wild animals, and humans over the last twenty years, and (iii) highlight the benefits of taking a One Health approach to managing this disease. While there have been several prevalence studies in dogs, disease distribution is poorly characterised in cats, and little is known about the occurrence of the parasite in wildlife. Human cases are sporadically reported, and no large-scale studies have been undertaken to date. Evidence indicates that Dirofilaria immitis is the main species circulating in Brazil, although Dirofilaria repens has also been detected. Molecular studies have also suggested the circulation of a highly virulent form of D. immitis, which may be genetically distinct from those of the Old World. A programme of epidemiological, ecological, genomic, and pathogenicity-based studies is required to quantify the impact of dirofilariosis in Brazil on both veterinary and public health and to inform others on its control.

Published

2024

12. The role of Culex territans mosquitoes in the transmission of Batrachochytrium dendrobatidis to amphibian hosts.

Author

Reinhold, Joanna M., Halbert, Ella, Roark, Megan, Smith, Sierra N., Stroh, Katherine M., Siler, Cameron D., McLeod, David S., and Lahondère, Chloé

Subjects

*MOSQUITOES, *BATRACHOCHYTRIUM dendrobatidis, *AMPHIBIANS, *CULEX, *FROG populations, *BULLFROG, *AMPHIBIAN populations, *MOSQUITO control, *INSECTICIDE resistance

Abstract

Background: Mosquitoes are the deadliest organisms in the world, killing an estimated 750,000 people per year due to the pathogens they can transmit. Mosquitoes also pose a major threat to other vertebrate animals. Culex territans is a mosquito species found in temperate zones worldwide that feeds almost exclusively on amphibians and can transmit parasites; however, little is known about its ability to transmit other pathogens, including fungi. Batrachochytrium dendrobatidis (Bd) is a topical pathogenic fungus that spreads through contact. With amphibian populations around the world experiencing mass die-offs and extinctions due to this pathogen, it is critical to study all potential modes of transmission. Because Cx. territans mosquitoes are in contact with their hosts for long periods of time while blood-feeding, we hypothesize that they can transmit and pick up Bd. Methods: In this study, we first assessed Cx. territans ability to transfer the fungus from an infected surface to a clean one under laboratory conditions. We also conducted a surveillance study of Bd infections in frogs and mosquitoes in the field (Mountain Lake Biological station, VA, USA). In parallel, we determined Cx. territans host preference via blood meal analysis of field caught mosquitoes. Results: We found that this mosquito species can carry the fungus to an uninfected surface, implying that they may have the ability to transmit Bd to their amphibian hosts. We also found that Cx. territans feed primarily on green frogs (Rana clamitans) and bullfrogs (Rana catesbeiana) and that the prevalence of Bd within the frog population at our field site varied between years. Conclusions: This study provides critical insights into understanding the role of amphibian-biting mosquitoes in transmitting pathogens, which can be applied to disease ecology of susceptible amphibian populations worldwide. [ABSTRACT FROM AUTHOR]

Published

2023

13. Barriers of malaria control interventions in African and Asian communities: A comparative meta-synthesis study

Author

Chandy, Ponnambily, Rani, M. Anitha, Nanjunda, D. C., Chellaperumal, A., and Kalyanaraman, Shanthraman

Published

2023

14. Quantifying Rift Valley fever virus transmission efficiency in a lamb-mosquito-lamb model

Author

Gebbiena M. Bron, Paul J. Wichgers Schreur, Mart C. M. de Jong, Lucien van Keulen, Rianka P. M. Vloet, Constantianus J. M. Koenraadt, Jeroen Kortekaas, and Quirine A. ten Bosch

Subjects

animal models, arbovirus, epidemiological modelling, biting rate, mosquito-borne disease, Phlebovirus riftense, Microbiology, QR1-502

Abstract

Rift Valley fever virus (RVFV) is a (re)emerging mosquito-borne pathogen impacting human and animal health. How RVFV spreads through a population depends on population-level and individual-level interactions between vector, host and pathogen. Here, we estimated the probability for RVFV to transmit to naive animals by experimentally exposing lambs to a bite of an infectious mosquito, and assessed if and how RVFV infection subsequently developed in the exposed animal. Aedes aegypti mosquitoes, previously infected via feeding on a viremic lamb, were used to expose naive lambs to the virus. Aedes aegypti colony mosquitoes were used as they are easy to maintain and readily feed in captivity. Other mosquito spp. could be examined with similar methodology. Lambs were exposed to either 1-3 (low exposure) or 7-9 (high exposure) infectious mosquitoes. All lambs in the high exposure group became viremic and showed characteristic signs of Rift Valley fever within 2-4 days post exposure. In contrast, 3 out of 12 lambs in the low exposure group developed viremia and disease, with similar peak-levels of viremia as the high exposure group but with some heterogeneity in the onset of viremia. These results suggest that the likelihood for successful infection of a ruminant host is affected by the number of infectious mosquitoes biting, but also highlights that a single bite of an infectious mosquito can result in disease. The per bite mosquito-to-host transmission efficiency was estimated at 28% (95% confidence interval: 15 - 47%). We subsequently combined this transmission efficiency with estimates for life traits of Aedes aegypti or related mosquitoes into a Ross-McDonald mathematical model to illustrate scenarios under which major RVFV outbreaks could occur in naïve populations (i.e., R0 >1). The model revealed that relatively high vector-to-host ratios as well as mosquitoes feeding preferably on competent hosts are required for R0 to exceed 1. Altogether, this study highlights the importance of experiments that mimic natural exposure to RVFV. The experiments facilitate a better understanding of the natural progression of disease and a direct way to obtain epidemiological parameters for mathematical models.

Published

2023

15. Toxicity of plants as insecticides against human pathogenic mosquito vectors of Saudi Arabian strains—A review.

Author

Aziz, Al Thabiani, Panneerselvam, Chellasamy, and Edward‐Sam, Edwin

Subjects

*INSECTICIDE resistance, *INSECTICIDES, *MOSQUITO vectors, *MOSQUITO-borne diseases, *BOTANICAL insecticides, *DENGUE hemorrhagic fever, *JAPANESE B encephalitis

Abstract

Mosquitoes (Diptera: Culicidae) are considered to be huge threat among millions of peoples, animals, and other living organisms in the world. Most of the vector borne diseases such as malaria, filariasis, dengue hemorrhagic fever, chikungunya, Japanese encephalitis etc., created huge impact on humans in all over the world. Vector diseases in Kingdom of Saudi Arabia are increasing day by day and their control measures taken through the government sectors for eradicating the vectors helps in controlling the diseases but still more approaches to be implemented or assimilated. Most of the synthetic or chemical based insecticides to control mosquitoes developed resistance among their communities even though they showed their potential in controlling the vector in initial days. Botanical insecticides from plant‐based origin such as active compounds, essential oils, green synthesized nanomaterials, and microbial secondary metabolites helps more efficiency in controlling vectors. Mode of action against vectors differs based on its persisting active ingredients, such as larvicidal, pupicidal, adulticidal, oviposition, morphological changes etc. Even though number of research works has been carried out against mosquito species, there is only limited number of studies undergone against mosquito vectors from Saudi Arabia origin. Hence this review will give us the current knowledge on the effectiveness of botanical insecticides against major mosquito vectors from Saudi Arabia. Thus, it gives more significant against medical and veterinary sectors. [ABSTRACT FROM AUTHOR]

Published

2023

16. MicroRNA Expression Prior to Biting in a Vector Mosquito Anticipates Physiological Processes Related to Energy Utilization, Reproduction and Immunity.

Author

Marzec, Sarah, Siperstein, Alden, Zhou, Angela, Holzapfel, Christina M., Bradshaw, William E., Meuti, Megan E., and Armbruster, Peter A.

Subjects

*GENE expression, *ENERGY consumption, *MOSQUITO vectors, *MESSENGER RNA, *MICRORNA, *REPRODUCTION, *EGGS

Abstract

Simple Summary: Mosquitoes are able to transmit a wide variety of devastating pathogens when they bite and obtain blood from their vertebrate hosts. Therefore, identifying the physiological processes required for biting by vector mosquitoes can contribute to developing strategies to suppress biting behavior and prevent disease transmission. In this study, we investigate the differential expression of small regulatory RNAs (microRNAs) between different strains of the Northern house mosquito, Culex pipiens, which is a major vector of West Nile virus and filarial nematodes. We measured differential microRNA expression specifically in the context of a behavioral biting assay, using populations with previously documented differences in biting propensity and the ability to produce eggs without a blood meal. We identified eight differentially expressed microRNAs; six of these are implicated in regulating physiological processes related to energy utilization, reproduction, and immunity. Our results are strikingly similar to previous studies demonstrating increased expression of messenger RNA-encoding proteins involved in energy utilization in association with biting. Furthermore, while previous studies have identified changes in microRNA expression occurring after consuming a blood meal, ours is the first study to demonstrate anticipatory changes in microRNA expression before blood is consumed. Understanding the molecular and physiological processes underlying biting behavior in vector mosquitoes has important implications for developing novel strategies to suppress disease transmission. Here, we conduct small-RNA sequencing and qRT-PCR to identify differentially expressed microRNAs (miRNAs) in the head tissues of two subspecies of Culex pipiens that differ in biting behavior and the ability to produce eggs without blood feeding. We identified eight differentially expressed miRNAs between biting C. pipiens pipiens (Pipiens) and non-biting C. pipiens molestus (Molestus); six of these miRNAs have validated functions or predicted targets related to energy utilization (miR8-5-p, miR-283, miR-2952-3p, miR-1891), reproduction (miR-1891), and immunity (miR-2934-3p, miR-92a, miR8-5-p). Although miRNAs regulating physiological processes associated with blood feeding have previously been shown to be differentially expressed in response to a blood meal, our results are the first to demonstrate differential miRNA expression in anticipation of a blood meal before blood is actually imbibed. We compare our current miRNA results to three previous studies of differential messenger RNA expression in the head tissues of mosquitoes. Taken together, the combined results consistently show that biting mosquitoes commit to specific physiological processes in anticipation of a blood meal, while non-biting mosquitoes mitigate these anticipatory costs. [ABSTRACT FROM AUTHOR]

Published

2023

17. An integrated public health response to an outbreak of Murray Valley encephalitis virus infection during the 2022–2023 mosquito season in Victoria

Author

Maxwell Braddick, Helen M. O’Brien, Chuan K. Lim, Rebecca Feldman, Cathy Bunter, Peter Neville, Christopher R. Bailie, Grace Butel-Simoes, Min-Ho Jung, Aidan Yuen, Nicole Hughes, and N. Deborah Friedman

Subjects

Murray Valley encephalitis virus, vector-borne disease, mosquito-borne disease, mosquitoes, flavivirus, encephalitis, Public aspects of medicine, RA1-1270

Abstract

IntroductionMurray Valley encephalitis virus (MVEV) is a mosquito-borne flavivirus known to cause infrequent yet substantial human outbreaks around the Murray Valley region of south-eastern Australia, resulting in significant mortality.MethodsThe public health response to MVEV in Victoria in 2022–2023 included a climate informed pre-season risk assessment, and vector surveillance with mosquito trapping and laboratory testing for MVEV. Human cases were investigated to collect enhanced surveillance data, and human clinical samples were subject to serological and molecular testing algorithms to assess for co-circulating flaviviruses. Equine surveillance was carried out via enhanced investigation of cases of encephalitic illness. Integrated mosquito management and active health promotion were implemented throughout the season and in response to surveillance signals.FindingsMosquito surveillance included a total of 3,186 individual trapping events between 1 July 2022 and 20 June 2023. MVEV was detected in mosquitoes on 48 occasions. From 2 January 2023 to 23 April 2023, 580 samples (sera and CSF) were tested for flaviviruses. Human surveillance detected 6 confirmed cases of MVEV infection and 2 cases of “flavivirus-unspecified.” From 1 September 2022 to 30 May 2023, 88 horses with clinical signs consistent with flavivirus infection were tested, finding one probable and no confirmed cases of MVE.DiscussionThe expanded, climate-informed vector surveillance system in Victoria detected MVEV in mosquitoes in advance of human cases, acting as an effective early warning system. This informed a one-health oriented public health response including enhanced human, vector and animal surveillance, integrated mosquito management, and health promotion.

Published

2023

18. A difference in larval mosquito size allows a biocontrol agent to target the invasive species.

Author

Russell, Marie C

Subjects

*BIOLOGICAL pest control agents, *AEDES albopictus, *LARVAE, *PREDATION, *INTRODUCED species, *MOSQUITOES, *CULEX pipiens, *INVESTIGATIONAL therapies

Abstract

As the global temperature rises in the coming decades, Aedes albopictus is expected to invade and establish in South East England, where Culex pipiens is currently the most common native mosquito species. Biocontrol measures that use local cyclopoid copepods against Ae. albopictus may be compromised if the copepods prefer alternate Cx. pipiens prey. In this study, I assessed the predation efficiency of Megacyclops viridis copepods against Ae. albopictus larvae from France and larvae that hatched from egg rafts of Cx. pipiens collected in South East England. The experiments were conducted at 15 and 25°C, which are representative of present and future summer temperatures in South East England. Ae. albopictus larvae that survived the course of the experiment in the predator‐absent controls were significantly smaller than Cx. pipiens larvae that survived in the absence of predation. The background mortality of Cx. pipiens larvae increased with the 10‐degree increase in temperature, and the smaller size of surviving Cx. pipiens larvae at 25°C, relative to survivors at 15°C, suggests that larger Cx. pipiens larvae were more likely to die at the higher temperature setting. Across all experimental treatments, the ratio of copepod body length to mean prey length, based on larval lengths of survivors from the corresponding predator‐absent controls, was a significant predictor of the copepod's predation efficiency. Adding temperature setting to the predation efficiency model as a predictor did not improve model fit. Within the mixed prey treatments, the predation efficiency of M. viridis was 34.5 percentage points higher against Ae. albopictus prey than against Cx. pipiens prey. The higher predation efficiency that M. viridis exhibited against invasive Ae. albopictus prey, likely due to the smaller size of these larvae, supports the future use of M. viridis as a biocontrol agent in the United Kingdom. [ABSTRACT FROM AUTHOR]

Published

2023

19. The 2022 West Nile Virus Season in Greece; A Quite Intense Season.

Author

Pervanidou, Danai, Kefaloudi, Chrysovaladou Niki, Vakali, Anna, Tsakalidou, Ourania, Karatheodorou, Myrsini, Tsioka, Katerina, Evangelidou, Maria, Mellou, Kassiani, Pappa, Styliani, Stoikou, Konstantina, Bakaloudi, Vasiliki, Koliopoulos, George, Stamoulis, Kostas, Patsoula, Eleni, Politis, Constantina, Hadjichristodoulou, Christos, and Papa, Anna

Subjects

*WEST Nile virus, *WHOLE genome sequencing, *MOLECULAR epidemiology, *NUCLEOTIDE sequencing, *WATCHFUL waiting

Abstract

Since 2010, the West Nile virus (WNV) has been established in Greece. We describe the epidemiology of diagnosed human WNV infections in Greece with a focus on the 2022 season. During the transmission period, clinicians were sending samples from suspected cases for testing. Active laboratory-based surveillance was performed with immediate notification of diagnosed cases. We collected clinical information and interviewed patients on a timely basis to identify their place of exposure. Besides serological and molecular diagnostic methods, next-generation sequencing was also performed. In 2022, 286 cases of WNV infection were diagnosed, including 278 symptomatic cases and 184 (64%) cases with neuroinvasive disease (WNND); 33 patients died. This was the third most intense season concerning the number of WNND cases, following 2018 and 2010. Most (96%) cases were recorded in two regions, in northern and central Greece. The virus strain was a variant of previous years, clustering into the Central European subclade of WNV lineage 2. The 2022 WNV season was quite intense in Greece. The prompt diagnosis and investigation of cases are considered pivotal for the timely response, while the availability of whole genome sequences enables studies on the molecular epidemiology of the disease. [ABSTRACT FROM AUTHOR]

Published

2023

20. Spatio-temporal impacts of aerial adulticide applications on populations of West Nile virus vector mosquitoes.

Author

Holcomb, Karen M, Reiner, Robert C, and Barker, Christopher M

Subjects

Adulticide, Aerial spraying, Culex pipiens, Culex tarsalis, GAM, Generalized additive models, Mosquito-borne disease, Mosquitoes, Spatial-temporal model, West Nile virus, Mycology & Parasitology, Medical Microbiology, Public Health and Health Services, Tropical Medicine

Abstract

BackgroundAerial applications of insecticides that target adult mosquitoes are widely used to reduce transmission of West Nile virus to humans during periods of epidemic risk. However, estimates of the reduction in abundance following these treatments typically focus on single events, rely on pre-defined, untreated control sites and can vary widely due to stochastic variation in population dynamics and trapping success unrelated to the treatment.MethodsTo overcome these limitations, we developed generalized additive models fitted to mosquito surveillance data collected from CO2-baited traps in Sacramento and Yolo counties, California from 2006 to 2017. The models accounted for the expected spatial and temporal trends in the abundance of adult female Culex (Cx.) tarsalis and Cx. pipiens in the absence of aerial spraying. Estimates for the magnitude of deviation from baseline abundance following aerial spray events were obtained from the models.ResultsAt 1-week post-treatment with full spatial coverage of the trapping area by pyrethroid or pyrethrin products, Cx. pipiens abundance was reduced by a mean of 52.4% (95% confidence intrval [CI] - 65.6, - 36.5%) while the use of at least one organophosphate pesticide resulted in a mean reduction of 76.2% (95% CI - 82.8, - 67.9%). For Cx. tarsalis, at 1-week post-treatment with full coverage there was a reduction in abundance of 30.7% (95% CI - 54.5, 2.5%). Pesticide class was not a significant factor contributing to the reduction. In comparison, repetition of spraying over three to four consecutive weeks resulted in similar estimates for Cx. pipiens and estimates of somewhat smaller magnitude for Cx. tarsalis.ConclusionsAerial adulticides are effective for achieving a rapid short-term reduction of the abundance of the primary West Nile virus vectors, Cx. tarsalis and Cx. pipiens. A larger magnitude of reduction was estimated in Cx. pipiens, possibly due to the species' focal distribution. Effects of aerial sprays on Cx. tarsalis populations are likely modulated by the species' large dispersal ability, population sizes and vast productive larval habitat present in the study area. Our modeling approach provides a new way to estimate effects of public health pesticides on vector populations using routinely collected observational data and accounting for spatio-temporal trends and contextual factors like weather and habitat. This approach does not require pre-selected control sites and expands upon past studies that have focused on the effects of individual aerial treatment events.

Published

2021

21. West Nile Virus Infection in Occupational Settings—A Systematic Review

Author

Amienwanlen E. Odigie, Angela Stufano, Valentina Schino, Aya Attia Koraney Zarea, Linda A. Ndiana, Daniela Mrenoshki, Iniobong C. I. Ugochukwu, Piero Lovreglio, Grazia Greco, Annamaria Pratelli, Michele Camero, and Maria Tempesta

Subjects

West Nile virus, mosquito-borne disease, workers, risk, occupational exposure, Medicine

Abstract

Background: West Nile virus (WNV) is an emerging mosquito-borne neurotropic virus, belonging to the Flaviviridae family and the Orthoflavivirus genus. The effective control of WNV requires a targeted preventive strategy that also needs the identification of the higher-risk populations. Hence, this study focused on a systematic literature review of WNV-acquired infection in work-related settings and the assessment of the exposure risks among different occupational categories. Methods: A comprehensive search was conducted to identify studies until September 2023 in multiple databases such as PubMed/MEDLINE, SCOPUS and Web of Science, according to the PRISMA 2020 statement. Risk of bias of collected papers was assessed by the ROB tool of the National Toxicology Program’s Office of Health Assessment and Translation handbook. Results: A total of 21 studies were included in the systematic review, out of which seventeen were observational studies and four were case reports. Workers identified as at higher risk for WNV infection were military workers, veterinarians, agricultural workers, farmers, and laboratory workers with contact with infected fluids or aerosols. Conclusions: The identification of higher-risk workers could facilitate active surveillance by occupational physicians, which could improve our understanding of the epidemiology of WNV and, in addition, could help tailor appropriate preventive recommendations, reducing the overall burden of disease in high-risk areas.

Published

2024

22. A difference in larval mosquito size allows a biocontrol agent to target the invasive species

Author

Marie C Russell

Subjects

biocontrol, cyclopoid copepods, invasion ecology, mosquito‐borne disease, predator–prey interactions, Ecology, QH540-549.5

Abstract

Abstract As the global temperature rises in the coming decades, Aedes albopictus is expected to invade and establish in South East England, where Culex pipiens is currently the most common native mosquito species. Biocontrol measures that use local cyclopoid copepods against Ae. albopictus may be compromised if the copepods prefer alternate Cx. pipiens prey. In this study, I assessed the predation efficiency of Megacyclops viridis copepods against Ae. albopictus larvae from France and larvae that hatched from egg rafts of Cx. pipiens collected in South East England. The experiments were conducted at 15 and 25°C, which are representative of present and future summer temperatures in South East England. Ae. albopictus larvae that survived the course of the experiment in the predator‐absent controls were significantly smaller than Cx. pipiens larvae that survived in the absence of predation. The background mortality of Cx. pipiens larvae increased with the 10‐degree increase in temperature, and the smaller size of surviving Cx. pipiens larvae at 25°C, relative to survivors at 15°C, suggests that larger Cx. pipiens larvae were more likely to die at the higher temperature setting. Across all experimental treatments, the ratio of copepod body length to mean prey length, based on larval lengths of survivors from the corresponding predator‐absent controls, was a significant predictor of the copepod's predation efficiency. Adding temperature setting to the predation efficiency model as a predictor did not improve model fit. Within the mixed prey treatments, the predation efficiency of M. viridis was 34.5 percentage points higher against Ae. albopictus prey than against Cx. pipiens prey. The higher predation efficiency that M. viridis exhibited against invasive Ae. albopictus prey, likely due to the smaller size of these larvae, supports the future use of M. viridis as a biocontrol agent in the United Kingdom.

Published

2023

23. Global threshold dynamics of a spatial chemotactic mosquito-borne disease model.

Author

Wang, Kai, Wang, Hao, and Zhao, Hongyong

Subjects

*MOSQUITO control, *MEDICAL model, *BASIC reproduction number, *POPULATION density, *INFECTIOUS disease transmission, *CHEMOTAXIS

Abstract

It is natural that mosquitoes move towards high human population density and environmental heterogeneity plays a pivotal role in disease transmission, and thus we formulate and analyse a mosquito-borne disease model with chemotaxis and spatial heterogeneity. The global existence and boundedness of solutions are proven to guarantee the solvability of the model and is challenging due to the model complexity. Under appropriate conditions, we demonstrate that the disease-free equilibrium is globally asymptotically stable provided that the basic reproduction number |$\mathcal{R}_0$| is less than one, and the system is uniformly persistent and admits at least one endemic equilibrium if |$\mathcal{R}_0$| is greater than one. Furthermore, we numerically explore the impacts of chemotactic effect, spatial heterogeneity and dispersal rates of infected individuals to provide a clear picture on disease severity. In particular, the mosquito chemotaxis causes mild disease in some regions but severe in others, which suggests developing targeted strategies to control mosquitoes in specific locations and achieve a deep understanding on the chemotaxis. [ABSTRACT FROM AUTHOR]

Published

2023

24. Congenital chikungunya in a neonate with early‐onset sepsis and petechiae: An unusual case report.

Author

Bin, Sakviseth, Phou, Kimyi, and Im, Sethikar

Subjects

*NEONATAL sepsis, *CHIKUNGUNYA, *SEPSIS, *NEWBORN infants, *CHIKUNGUNYA virus, *DENGUE

Abstract

Chikungunya, a mosquito‐borne disease, is posing threat to neonatal population in Cambodia because of its challenging diagnosis and insufficient attention compared with Dengue. In what follows, we present a case of serologically‐confirmed congenital chikungunya in a newborn presenting early‐onset sepsis, and the mother was underdiagnosed with intrapartum flu‐like infection. [ABSTRACT FROM AUTHOR]

Published

2023

25. Predictive modelling of Ross River virus using climate data in the Darling Downs.

Author

Meadows, Julia, McMichael, Celia, and Campbell, Patricia T.

Abstract

Ross River virus (RRV) is the most common mosquito-borne infection in Australia. RRV disease is characterised by joint pain and lethargy, placing a substantial burden on individual patients, the healthcare system and economy. This burden is compounded by a lack of effective treatment or vaccine for the disease. The complex RRV disease ecology cycle includes a number of reservoirs and vectors that inhabit a range of environments and climates across Australia. Climate is known to influence humans, animals and the environment and has previously been shown to be useful to RRV prediction models. We developed a negative binomial regression model to predict monthly RRV case numbers and outbreaks in the Darling Downs region of Queensland, Australia. Human RRV notifications and climate data for the period July 2001 – June 2014 were used for model training. Model predictions were tested using data for July 2014 – June 2019. The final model was moderately effective at predicting RRV case numbers (Pearson's r = 0.427) and RRV outbreaks (accuracy = 65%, sensitivity = 59%, specificity = 73%). Our findings show that readily available climate data can provide timely prediction of RRV outbreaks. [ABSTRACT FROM AUTHOR]

Published

2023

26. The long-distance relationship between Dirofilaria and the UK: case report and literature review

Author

Rossella Panarese, Rhiannon Moore, Antony P. Page, Mike McDonald, Emma MacDonald, and William Weir

Subjects

Dirofilaria repens, Dirofilaria immitis, heartworm disease, subcutaneous dirofilariosis, mosquito-borne disease, dirofilariasis, Veterinary medicine, SF600-1100

Abstract

Over the last two decades, vector-borne pathogens (VBPs) have changed their distribution across the globe as a consequence of a variety of environmental, socioeconomic and geopolitical factors. Dirofilaria immitis and Dirofilaria repens are perfect exemplars of European VBPs of One Health concern that have undergone profound changes in their distribution, with new hotspots of infection appearing in previously non-endemic countries. Some areas, such as the United Kingdom, are still considered non-endemic. However, a combination of climate change and the potential spread of invasive mosquito species may change this scenario, exposing the country to the risk of outbreaks of filarial infections. Only a limited number of non-autochthonous cases have been recorded in the United Kingdom to date. These infections remain a diagnostic challenge for clinicians unfamiliar with these “exotic” parasites, which in turn complicates the approach to treatment and management. Therefore, this review aims to (i) describe the first case of D. repens infection in a dog currently resident in Scotland, (ii) summarise the available literature on Dirofilaria spp. infections in both humans and animals in the United Kingdom and (iii) assess the suitability of the United Kingdom for the establishment of these new VBPs.

Published

2023

27. Socio‐ecological dynamics in urban systems: An integrative approach to mosquito‐borne disease in Bengaluru, India

Author

Michelle V. Evans, Siddharth Bhatnagar, John M. Drake, Courtney C. Murdock, and Shomen Mukherjee

Subjects

mixed methods, mosquito‐borne disease, urbanization, Human ecology. Anthropogeography, GF1-900, Ecology, QH540-549.5

Abstract

Abstract Urban environments are heterogeneous landscapes of social and environmental features, with important consequences for human–nature entanglements, such as that of mosquito‐borne disease. Investigations into this intra‐urban heterogeneity in mosquito dynamics find conflicting results, likely due to the complex socio‐ecological interactions and the importance of place‐based context. Integrative research, which synthesizes multiple disciplines and epistemologies, can place ecological results into their social context to explore these place‐based differences and reveal novel solutions for mosquito‐borne disease management. Here, we develop an integrative approach to understanding spatial patterns of mosquito burdens in urban systems by combining entomological surveys, semi‐structured interviews and sketch maps. We highlight this approach using a mixed‐method study conducted in Bengaluru, India, a rapidly urbanizing city with a high burden of mosquito‐borne disease. Although we found no evidence for a difference in mosquito abundance across an urban gradient, there were differences in individuals' everyday experiences with mosquitoes. These differences were mediated by how individuals moved through outdoor space and their vulnerability to hazards in these spaces. This example of integrative research illustrates what can be gained from the inclusion of multiple epistemologies, particularly for research in urban systems. Read the free Plain Language Summary for this article on the Journal blog.

Published

2022

28. Conserved molecular pathways underlying biting in two divergent mosquito genera

Author

Alden Siperstein, Sarah Marzec, Megan L. Fritz, Christina M. Holzapfel, William E. Bradshaw, Peter A. Armbruster, and Megan E. Meuti

Subjects

blood feeding, Culex pipiens, life‐history evolution, mosquito‐borne disease, vector control, Wyeomyia smithii, Evolution, QH359-425

Abstract

Abstract Mosquitoes transmit a wide variety of devastating pathogens when they bite vertebrate hosts and feed on their blood. However, three entire mosquito genera and many individual species in other genera have evolved a nonbiting life history in which blood is not required to produce eggs. Our long‐term goal is to develop novel interventions that reduce or eliminate the biting behavior in vector mosquitoes. A previous study used biting and nonbiting populations of a nonvector mosquito, Wyeomyia smithii, as a model to uncover the transcriptional basis of the evolutionary transition from a biting to a nonbiting life history. Herein, we ask whether the molecular pathways that were differentially expressed due to differences in biting behavior in W. smithii are also differentially expressed between subspecies of Culex pipiens that are obligate biting (Culex pipiens pipiens) and facultatively nonbiting (Culex pipiens molestus). Results from RNAseq of adult heads show dramatic upregulation of transcripts in the ribosomal protein pathway in biting C. pipiens, recapitulating the results in W. smithii, and implicating the ancient and highly conserved ribosome as the intersection to understanding the evolutionary and physiological basis of blood feeding in mosquitoes. Biting Culex also strongly upregulate energy production pathways, including oxidative phosphorylation and the citric acid (TCA) cycle relative to nonbiters, a distinction that was not observed in W. smithii. Amino acid metabolism pathways were enriched for differentially expressed genes in biting versus nonbiting Culex. Relative to biters, nonbiting Culex upregulated sugar metabolism and transcripts contributing to reproductive allocation (vitellogenin and cathepsins). These results provide a foundation for developing strategies to determine the natural evolutionary transition between a biting and nonbiting life history in vector mosquitoes.

Published

2022

29. Safety and Immunogenicity of a First-in-Human Mosquito Saliva Peptide Vaccine

Published

2020

30. Editorial: Emerging mosquito-borne diseases and novel biocontrol strategies

Author

Sheng-Qun Deng, Emad I. M. Khater, Ernest Tambo, and Duo-Quan Wang

Subjects

mosquito-borne disease, biocontrol, malaria, dengue virus (DENV), Zika virus, Microbiology, QR1-502

Published

2023

31. Insect‐specific viruses used in biocontrol of mosquito‐borne diseases

Author

Jiating Chen, Shengqun Deng, and Hongjuan Peng

Subjects

arbovirus, baculoviruses, densoviruses, insect‐specific virus, mosquito‐borne disease, vector control, Medical technology, R855-855.5, Biotechnology, TP248.13-248.65

Abstract

Abstract Mosquito‐borne diseases, such as malaria, dengue, Zika, and West Nile, have caused substantial disease burdens to the people living in tropical and subtropical regions. Despite decades of efforts in control, the prevalence, geographic distribution, and severity of these diseases are still deteriorating and the options for vector control are limited. Insect‐specific viruses (ISVs) can naturally infect and replicate in mosquitoes, and even be vertically transmitted from generation to generation, interfering with arbovirus' proliferation, and disturbing mosquito's physiology, which are harmless to vertebrates and have great potential for bio‐control. Insect‐specific RNA viruses (ISRVs) infection will inhibit the replication of mosquito‐borne viruses, which may be due to the close phylogeny of ISRVs and the arboviruses. Mosquito baculoviruses (MBVs) and mosquito densoviruses (MDVs) belong to insect‐specific DNA viruses. The former has limited pathogenicity to mosquitoes, while the latter can be horizontally and vertically transmitted in mosquitoes, resulting in habitat pollution, abnormal development or death of larvae and adults. In addition, ISVs can be used as fusion expression vectors to express insect virulence proteins in mosquitoes or directly inactivate important genes of mosquitoes. However, there are still many deficiencies in ISVs research studies. Clarification of the host limit mechanism for each ISVs and application of more targeted and efficient ISVs or toxins will be the future research directions.

Published

2023

32. Congenital chikungunya in a neonate with early‐onset sepsis and petechiae: An unusual case report

Author

Sakviseth Bin, Kimyi Phou, and Sethikar Im

Subjects

chikungunya virus, congenital, mosquito‐borne disease, neonatal sepsis, Medicine, Medicine (General), R5-920

Abstract

Abstract Chikungunya, a mosquito‐borne disease, is posing threat to neonatal population in Cambodia because of its challenging diagnosis and insufficient attention compared with Dengue. In what follows, we present a case of serologically‐confirmed congenital chikungunya in a newborn presenting early‐onset sepsis, and the mother was underdiagnosed with intrapartum flu‐like infection.

Published

2023

33. Evidence for overwintering and autochthonous transmission of Usutu virus to wild birds following its redetection in the United Kingdom.

Author

Folly, Arran J., Sewgobind, Sanam, Hernández‐Triana, Luis M., Mansfield, Karen L., Lean, Fabian Z. X., Lawson, Becki, Seilern‐Moy, Katharina, Cunningham, Andrew A., Spiro, Simon, Wrigglesworth, Ethan, Pearce‐Kelly, Paul, Herdman, Trent, Johnston, Colin, Berrell, Morgan, Vaux, Alexander G. C., Medlock, Jolyon M., and Johnson, Nicholas

Subjects

*MOLECULAR clock, *VECTOR-borne diseases, *ENDEMIC diseases, *VIRUS diseases, *CIRCADIAN rhythms, *BIRD breeding, *MOSQUITO control, *EMERGING infectious diseases, *IMMUNOGLOBULINS

Abstract

Usutu virus (USUV) is an emerging zoonotic arbovirus in Europe, where it primarily impacts Eurasian blackbirds (Turdus merula). For mosquito‐borne viruses to persist in temperate areas, transovarial transmission in vectors or overwintering in either hosts or diapausing vectors must occur to facilitate autochthonous transmission. We undertook surveillance of hosts and vectors in 2021 to elucidate whether USUV had overwintered in the United Kingdom (UK) following its initial detection there in 2020. From 175 dead bird submissions, we detected 1 case of USUV infection, in a blackbird, from which a full USUV genome was derived. Using a molecular clock analysis, we demonstrate that the 2021 detection shared a most recent common ancestor with the 2020 Greater London, UK, USUV sequence. In addition, we identified USUV‐specific neutralizing antibodies in 10 out of 86 serum samples taken from captive birds at the index site, demonstrating in situ cryptic infection and potential sustained transmission. However, from 4966 mosquitoes, we detected no USUV RNA suggesting that prevalence in the vector community was absent or low during sampling. Combined, these results suggest that USUV overwintered in the UK, thus providing empirical evidence for the continued northward expansion of this vector‐borne viral disease. Currently, our detection indicates geographically restricted virus persistence. Further detections over time will be required to demonstrate long‐term establishment. It remains unclear whether the UK, and by extension other high‐latitude regions, can support endemic USUV infection. [ABSTRACT FROM AUTHOR]

Published

2022

34. Mosquito Surveillance and Insecticide Resistance Monitoring Conducted by the Florida Keys Mosquito Control District, Monroe County, Florida, USA.

Author

Hribar, Lawrence J., Boehmler, Michael B., Murray, Heidi L., Pruszynski, Catherine A., and Leal, Andrea L.

Subjects

*INSECTICIDE resistance, *INSECTICIDES, *MOSQUITO control, *ANIMAL health, *INTEGRATED pest control, *PESTICIDE resistance, *MOSQUITOES, *INSECT traps

Abstract

Simple Summary: Mosquitoes are the most important group of flies affecting human health and wellness. Worldwide, mosquito-borne diseases kill over 700,000 people every year and afflict millions more. Mosquitoes also adversely affect domestic and agricultural animal health and negatively impact tourism-based economies. The Florida Keys Mosquito Control District is responsible for reducing mosquito populations in an area stretching from Cross Key and Broad Creek in the northeast to Key West in the southwest. Before mosquitoes can be controlled, it is important to know how many mosquitoes there are, what species are present, and where they are located. Adult mosquito surveillance traps such as the BG Sentinel, set around homes and businesses, and light traps, set in field sites, are used to identify the number and species of mosquitoes in an area. Larval and pupal mosquito surveillance is conducted by visiting water sources in domestic and field habitats to look for immature mosquitoes. Surveillance informs operational staff of the types of treatments required to control mosquitoes present. Products currently used to kill larval and adult forms of mosquitoes are continuously evaluated for efficacy to reduce pesticide-resistant populations. Mosquito control programs in the State of Florida are charged with protecting human and animal health, fostering economic development of the State, permitting enjoyment of the natural attractions in Florida, and improving the quality of life of citizens. Mosquito control programs must accomplish these tasks in such a manner as will protect the environment and terrestrial, marine, and freshwater ecosystems. The Florida Keys Mosquito Control District provides a science-based Integrated Pest Management mosquito control program to the residents of the Florida Keys, Monroe County, Florida. Operational decisions are based on surveillance of adult and immature mosquitoes. Mosquito populations are monitored by means of carbon dioxide-baited light traps BG Sentinel traps, truck traps, gravid traps, oviposition traps, and human landing rate counts. Larvae and pupae are monitored by inspections of natural and human-made immature habitats. Due to past and current reliance on chemical pesticides for control of mosquitoes, the District maintains a pesticide resistance detection program consisting of CDC bottle bioassays and larval bioassays, challenging local mosquito species with currently used adulticides and larvicides. [ABSTRACT FROM AUTHOR]

Published

2022

35. MicroRNA Expression Prior to Biting in a Vector Mosquito Anticipates Physiological Processes Related to Energy Utilization, Reproduction and Immunity

Author

Sarah Marzec, Alden Siperstein, Angela Zhou, Christina M. Holzapfel, William E. Bradshaw, Megan E. Meuti, and Peter A. Armbruster

Subjects

mosquito-borne disease, biting, anticipatory physiology, vector, Culex pipiens, blood feeding, Science

Abstract

Understanding the molecular and physiological processes underlying biting behavior in vector mosquitoes has important implications for developing novel strategies to suppress disease transmission. Here, we conduct small-RNA sequencing and qRT-PCR to identify differentially expressed microRNAs (miRNAs) in the head tissues of two subspecies of Culex pipiens that differ in biting behavior and the ability to produce eggs without blood feeding. We identified eight differentially expressed miRNAs between biting C. pipiens pipiens (Pipiens) and non-biting C. pipiens molestus (Molestus); six of these miRNAs have validated functions or predicted targets related to energy utilization (miR8-5-p, miR-283, miR-2952-3p, miR-1891), reproduction (miR-1891), and immunity (miR-2934-3p, miR-92a, miR8-5-p). Although miRNAs regulating physiological processes associated with blood feeding have previously been shown to be differentially expressed in response to a blood meal, our results are the first to demonstrate differential miRNA expression in anticipation of a blood meal before blood is actually imbibed. We compare our current miRNA results to three previous studies of differential messenger RNA expression in the head tissues of mosquitoes. Taken together, the combined results consistently show that biting mosquitoes commit to specific physiological processes in anticipation of a blood meal, while non-biting mosquitoes mitigate these anticipatory costs.

Published

2023

36. Updated distribution maps of predominant Culex mosquitoes across the Americas

Author

Morgan E. Gorris, Andrew W. Bartlow, Seth D. Temple, Daniel Romero-Alvarez, Deborah P. Shutt, Jeanne M. Fair, Kimberly A. Kaufeld, Sara Y. Del Valle, and Carrie A. Manore

Subjects

Mosquitoes, Niche model, Species distribution, Vectors, Mosquito-borne disease, Infectious disease, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Estimates of the geographical distribution of Culex mosquitoes in the Americas have been limited to state and provincial levels in the United States and Canada and based on data from the 1980s. Since these estimates were made, there have been many more documented observations of mosquitoes and new methods have been developed for species distribution modeling. Moreover, mosquito distributions are affected by environmental conditions, which have changed since the 1980s. This calls for updated estimates of these distributions to understand the risk of emerging and re-emerging mosquito-borne diseases. Methods We used contemporary mosquito data, environmental drivers, and a machine learning ecological niche model to create updated estimates of the geographical range of seven predominant Culex species across North America and South America: Culex erraticus, Culex nigripalpus, Culex pipiens, Culex quinquefasciatus, Culex restuans, Culex salinarius, and Culex tarsalis. Results We found that Culex mosquito species differ in their geographical range. Each Culex species is sensitive to both natural and human-influenced environmental factors, especially climate and land cover type. Some prefer urban environments instead of rural ones, and some are limited to tropical or humid areas. Many are found throughout the Central Plains of the USA. Conclusions Our updated contemporary Culex distribution maps may be used to assess mosquito-borne disease risk. It is critical to understand the current geographical distributions of these important disease vectors and the key environmental predictors structuring their distributions not only to assess current risk, but also to understand how they will respond to climate change. Since the environmental predictors structuring the geographical distribution of mosquito species varied, we hypothesize that each species may have a different response to climate change. Graphical abstract

Published

2021

37. Evolutionary adaptation under climate change: Aedes sp. demonstrates potential to adapt to warming.

Author

Couper LI, Dodge TO, Hemker JA, Kim BY, Exposito-Alonso M, Brem RB, Mordecai EA, and Bitter MC

Abstract

Climate warming is expected to shift the distributions of mosquitoes and mosquito-borne diseases, facilitating expansions at cool range edges and contractions at warm range edges. However, whether mosquito populations could maintain their warm edges through evolutionary adaptation remains unknown. Here, we investigate the potential for thermal adaptation in Aedes sierrensis , a congener of the major disease vector species that experiences large thermal gradients in its native range, by assaying tolerance to prolonged and acute heat exposure, and its genetic basis in a diverse, field-derived population. We found pervasive evidence of heritable genetic variation in acute heat tolerance, which phenotypically trades off with tolerance to prolonged heat exposure. A simple evolutionary model based on our data shows that the estimated maximum rate of evolutionary adaptation in mosquito heat tolerance typically exceeds that of projected climate warming under idealized conditions. Our findings indicate that natural mosquito populations may have the potential to track projected warming via genetic adaptation. Prior climate-based projections may thus underestimate the range of mosquito and mosquito-borne disease distributions under future climate conditions., Competing Interests: Competing Interest Statement: authors declare no competing interest.

Published

2024

38. Update on the composition and distribution of the mosquito fauna (Diptera: Culicidae) in Cabo Verde, a country at risk for mosquito-borne diseases.

Author

Da Veiga Leal S, Varela IBF, Monteiro DDS, Ramos de Sousa CM, da Luz Lima Mendonça M, De Pina AJ, Gonçalves AALM, and Costa Osório H

Subjects

Animals, Cabo Verde, Biodiversity, Larva growth & development, Pupa growth & development, Vector Borne Diseases transmission, Vector Borne Diseases prevention & control, Mosquito-Borne Diseases, Culicidae classification, Animal Distribution, Mosquito Vectors

Abstract

Mosquitoes play a critical role as vectors of pathogens affecting both humans and animals. Therefore, understanding their biodiversity and distribution is crucial to developing evidence-based vector control strategies. The current study updated the composition and distribution of mosquito species through a comprehensive survey of all municipalities of Cabo Verde. From October 2017 to September 2018, mosquito larvae and pupae were collected from 814 aquatic habitats. Anopheles gambiae (Giles, 1902) and Culex pipiens (Linnaeus, 1758) complexes were subjected to PCR-based techniques for sibling species identification. Ten mosquito species from 5 genera were identified: Aedes aegypti (Linnaeus, 1762), Aedes caspius (Pallas, 1771), Anopheles arabiensis (Patton, 1905), Anopheles pretoriensis (Theobald, 1903), Culex bitaeniorhynchus (Giles, 1901), Cx. pipiens, Culex quinquefasciatus (Say, 1823), Culex tritaeniorhynchus (Giles, 1901), Culiseta longiareolata (Macquart, 1838), and Lutzia tigripes (de Grandpre & de Charmoy, 1901). Santiago Island reported the highest number of species (n = 8). Ae. aegypti and Cx. quinquefasciatus were the most widely distributed species across the country. An. arabiensis was the sole species identified within the An. gambiae complex. The findings from our study will help guide health policy decisions to effectively control mosquito-borne diseases., (© The Author(s) 2024. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

39. Climatic factors and the incidence of dengue in Cartagena, Colombian Caribbean Region

Author

Eder Cano-Pérez, Steev Loyola, Dacia Malambo-García, and Doris Gómez-Camargo

Subjects

Dengue, Mosquito-borne disease, Climatic factors, Macroclimatic phenomena, Colombian Caribbean region, Arctic medicine. Tropical medicine, RC955-962

Abstract

ABSTRACT Background: The influence of climate on the epidemiology of dengue has scarcely been studied in Cartagena. Methods: The relationship between dengue cases and climatic and macroclimatic factors was explored using an ecological design and bivariate and time-series analyses during lag and non-lag months. Data from 2008-2017 was obtained from the national surveillance system and meteorological stations. Results: Cases correlated only with climatic variables during lag and non-lag months. Decreases in precipitation and humidity and increases in temperature were correlated with an increase in cases. Conclusions: Our findings provide useful information for establishing and strengthening dengue prevention and control strategies.

Published

2022

40. The 2022 West Nile Virus Season in Greece; A Quite Intense Season

Author

Danai Pervanidou, Chrysovaladou Niki Kefaloudi, Anna Vakali, Ourania Tsakalidou, Myrsini Karatheodorou, Katerina Tsioka, Maria Evangelidou, Kassiani Mellou, Styliani Pappa, Konstantina Stoikou, Vasiliki Bakaloudi, George Koliopoulos, Kostas Stamoulis, Eleni Patsoula, Constantina Politis, Christos Hadjichristodoulou, and Anna Papa

Subjects

West Nile virus, Greece, mosquito-borne disease, vector-borne disease, Microbiology, QR1-502

Abstract

Since 2010, the West Nile virus (WNV) has been established in Greece. We describe the epidemiology of diagnosed human WNV infections in Greece with a focus on the 2022 season. During the transmission period, clinicians were sending samples from suspected cases for testing. Active laboratory-based surveillance was performed with immediate notification of diagnosed cases. We collected clinical information and interviewed patients on a timely basis to identify their place of exposure. Besides serological and molecular diagnostic methods, next-generation sequencing was also performed. In 2022, 286 cases of WNV infection were diagnosed, including 278 symptomatic cases and 184 (64%) cases with neuroinvasive disease (WNND); 33 patients died. This was the third most intense season concerning the number of WNND cases, following 2018 and 2010. Most (96%) cases were recorded in two regions, in northern and central Greece. The virus strain was a variant of previous years, clustering into the Central European subclade of WNV lineage 2. The 2022 WNV season was quite intense in Greece. The prompt diagnosis and investigation of cases are considered pivotal for the timely response, while the availability of whole genome sequences enables studies on the molecular epidemiology of the disease.

Published

2023

41. Modeling and analysis of the transmission dynamics of mosquito-borne disease with environmental temperature fluctuation.

Author

Misra, O. P., Dhar, Joydip, and Sisodiya, Omprakash Singh

Subjects

INFECTIOUS disease transmission, NONLINEAR differential equations, NONLINEAR equations, MOSQUITOES, MOSQUITO-borne diseases, TEMPERATURE effect, DISEASE vectors

Abstract

Most of the vector-borne diseases show a clear dependence on seasonal variation, including climate change. In this paper, we proposed a nonautonomous mathematical model consisting of a periodic system of nonlinear differential equations. In the proposed model, the realistic functional forms for the different temperature-dependent parameters are considered. The autonomous system of the proposed model is also analyzed. The nontrivial solution of the autonomous model is locally asymptotically stable if R 0 < 1. It is shown that a unique endemic equilibrium point of the autonomous model exists when R 0 > 1 and proved that endemic solution is linearly stable when R 0 > 1. The nonautonomous model is shown to have a nontrivial disease-free periodic state, which is globally asymptotically stable whenever temperature-dependent reproduction number is less than unity. It is observed that a unique positive endemic periodic solution of the nonautonomous system exists only when a temperature-dependent reproduction number greater than unity, which makes for the persistence of the disease. Numerical simulation has been carried out to support the analytical results and shows the effects of temperature variability in the life span of mosquitoes as well as the persistence of the disease. [ABSTRACT FROM AUTHOR]

Published

2022

42. Socio‐ecological dynamics in urban systems: An integrative approach to mosquito‐borne disease in Bengaluru, India.

Author

Evans, Michelle V., Bhatnagar, Siddharth, Drake, John M., Murdock, Courtney C., and Mukherjee, Shomen

Subjects

URBANIZATION, RURAL housing, AEDES aegypti, WEST Nile fever, LIFE sciences, SOCIAL science research, TRADITIONAL ecological knowledge

Abstract

However, in addition to visual traits (e.g. coloration, size, etc.), people also distinguished between mosquito species based on their activity times, noting the difference between diurnal and crepuscular mosquitoes and how this influenced their interactions with mosquitoes. Experiences of mosquito diversity tended to focus on distinguishing I Aedes i mosquitoes from other mosquito genera within a site. One community member described the timing of her interactions with mosquitoes, demonstrating in-depth knowledge of mosquito behaviours: The white-striped ones [referencing Aedes mosquitoes] would be biting us around now [late afternoon]. However, mosquito-borne disease transmission occurs at the intersection of mosquito vectors and human hosts, and so we must also examine patterns in individuals' experiences with mosquitoes, questioning where, how and why they may encounter high mosquito burdens. Keywords: mixed methods; mosquito-borne disease; urbanization EN mixed methods mosquito-borne disease urbanization 730 743 14 06/10/22 20220601 NES 220601 INTRODUCTION Urban environments are heterogeneous landscapes of social and environmental features, with important consequences for human-nature interactions. [Extracted from the article]

Published

2022

43. Conserved molecular pathways underlying biting in two divergent mosquito genera.

Author

Siperstein, Alden, Marzec, Sarah, Fritz, Megan L., Holzapfel, Christina M., Bradshaw, William E., Armbruster, Peter A., and Meuti, Megan E.

Subjects

*CULEX pipiens, *MOSQUITOES, *AMINO acid metabolism, *CULEX, *LIFE history theory, *RIBOSOMAL DNA, *INSECT eggs, *RIBOSOMES

Abstract

Mosquitoes transmit a wide variety of devastating pathogens when they bite vertebrate hosts and feed on their blood. However, three entire mosquito genera and many individual species in other genera have evolved a nonbiting life history in which blood is not required to produce eggs. Our long‐term goal is to develop novel interventions that reduce or eliminate the biting behavior in vector mosquitoes. A previous study used biting and nonbiting populations of a nonvector mosquito, Wyeomyia smithii, as a model to uncover the transcriptional basis of the evolutionary transition from a biting to a nonbiting life history. Herein, we ask whether the molecular pathways that were differentially expressed due to differences in biting behavior in W. smithii are also differentially expressed between subspecies of Culex pipiens that are obligate biting (Culex pipiens pipiens) and facultatively nonbiting (Culex pipiens molestus). Results from RNAseq of adult heads show dramatic upregulation of transcripts in the ribosomal protein pathway in biting C. pipiens, recapitulating the results in W. smithii, and implicating the ancient and highly conserved ribosome as the intersection to understanding the evolutionary and physiological basis of blood feeding in mosquitoes. Biting Culex also strongly upregulate energy production pathways, including oxidative phosphorylation and the citric acid (TCA) cycle relative to nonbiters, a distinction that was not observed in W. smithii. Amino acid metabolism pathways were enriched for differentially expressed genes in biting versus nonbiting Culex. Relative to biters, nonbiting Culex upregulated sugar metabolism and transcripts contributing to reproductive allocation (vitellogenin and cathepsins). These results provide a foundation for developing strategies to determine the natural evolutionary transition between a biting and nonbiting life history in vector mosquitoes. [ABSTRACT FROM AUTHOR]

Published

2022

44. Yellow fever virus outbreak in Brazil under current and future climate

Author

Tara Sadeghieh, Jan M. Sargeant, Amy L. Greer, Olaf Berke, Guillaume Dueymes, Philippe Gachon, Nicholas H. Ogden, and Victoria Ng

Subjects

Yellow fever, Mosquito-borne disease, Climate change, Infectious disease model, Temperature, Infectious and parasitic diseases, RC109-216

Abstract

Introduction: Yellow fever (YF) is primarily transmitted by Haemagogus species of mosquitoes. Under climate change, mosquitoes and the pathogens that they carry are expected to develop faster, potentially impacting the case count and duration of YF outbreaks. The aim of this study was to determine how YF virus outbreaks in Brazil may change under future climate, using ensemble simulations from regional climate models under RCP4.5 and RCP8.5 scenarios for three time periods: 2011–2040 (short-term), 2041–2070 (mid-term), and 2071–2100 (long-term). Methods: A compartmental model was developed to fit the 2017/18 YF outbreak data in Brazil using least squares optimization. To explore the impact of climate change, temperature-sensitive mosquito parameters were set to change over projected time periods using polynomial equations fitted to their relationship with temperature according to the average temperature for years 2011–2040, 2041–2070, and 2071–2100 for climate change scenarios using RCP4.5 and RCP8.5, where RCP4.5/RCP8.5 corresponds to intermediate/high radiative forcing values and to moderate/higher warming trends. A sensitivity analysis was conducted to determine how the temperature-sensitive parameters impacted model results, and to determine how vaccination could play a role in reducing YF in Brazil. Results: Yellow fever case projections for Brazil from the models varied when climate change scenarios were applied, including the peak clinical case incidence, cumulative clinical case incidence, time to peak incidence, and the outbreak duration. Overall, a decrease in YF cases and outbreak duration was observed. Comparing the observed incidence in 2017/18 to the projected incidence in 2070–2100, for RCP4.5, the cumulative case incidence decreased from 184 to 161, and the outbreak duration decreased from 21 to 20 weeks. For RCP8.5, the peak case incidence decreased from 184 to 147, and the outbreak duration decreased from 21 to 17 weeks. The observed decrease was primarily due to temperature increasing beyond that suitable for Haemagogus mosquito survival. Conclusions: Climate change is anticipated to have an impact on mosquito-borne diseases. We found outbreaks of YF may reduce in intensity as temperatures increase in Brazil; however, temperature is not the only factor involved with disease transmission. Other factors must be explored to determine the attributable impact of climate change on mosquito-borne diseases.

Published

2021

45. Traveling waves for a diffusive mosquito-borne epidemic model with general incidence.

Author

Wang, Kai, Zhao, Hongyong, and Wang, Hao

Subjects

*DISEASE incidence, *EPIDEMICS, *MOSQUITOES

Abstract

In this paper, we obtain the complete information about the existence and nonexistence of traveling wave solution (TWS) for a reaction–diffusion model of mosquito-borne disease with general incidence and constant recruitment. We find that the basic reproduction ratio R 0 of the corresponding kinetic system and the minimal wave speed c ∗ are thresholds to determine the existence of TWS. With the aid of limiting arguments and Lyapunov approach, it is demonstrated that the system possesses a nontrivial TWS with wave speed c ≥ c ∗ connecting the disease-free equilibrium and endemic equilibrium when R 0 > 1 . When R 0 ≤ 1 and c > 0 , the nonexistence of nontrivial TWS is obtained by contradiction. By means of a rather ingenious method that is easier to understand than Laplace transform, we show that there is no nontrivial TWS when R 0 > 1 and 0 < c < c ∗ . Numerically, we perform simulations to verify the analytical results and explore the sensitivity of the speed c ∗ on parameters. The sensitivity results show that the parameters related to mosquitoes have a greater impact on c ∗ . [ABSTRACT FROM AUTHOR]

Published

2022

46. The Impact of Cycling Temperature on the Transmission of West Nile Virus

Author

Danforth, Mary E, Reisen, William K, and Barker, Christopher M

Subjects

Infectious Diseases, Biodefense, Vector-Borne Diseases, Vaccine Related, Emerging Infectious Diseases, Prevention, Rare Diseases, West Nile Virus, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Animals, Culex, Feeding Behavior, Female, Insect Vectors, Seasons, Temperature, West Nile Fever, West Nile virus, mosquito-borne disease, vector competence, extrinsic incubation period, Culex tarsalis, Biological Sciences, Medical and Health Sciences, Tropical Medicine

Abstract

West Nile virus (WNV) is an important cause of disease in humans and animals. Risk of WNV infection varies seasonally, with the greatest risk during the warmest parts of the year due in part to the accelerated extrinsic incubation rate of the virus in mosquitoes. Rates of extrinsic incubation have been shown in constant-temperature studies to increase as an approximately linear function of temperature, but for other vector-borne pathogens, such as malaria or dengue virus, nonlinear relationships have been demonstrated under cycling temperatures near the thermal limits of pathogen replication. Using typical daily air temperature profiles from three key periods of WNV amplification in a hyperendemic area of WNV activity in California's Central Valley, as well as a fourth temperature profile based on exposures that would result from daily mosquito host-seeking and resting behavior, we explored the impacts of cycling temperatures on WNV transmission by Culex tarsalis Coquillett, one of the principal vectors in the western United States. The daily cycling temperature ranges studied were representative of those that occur across much of California, but they did not significantly alter the extrinsic incubation period of WNV compared with estimates from mean temperatures alone. This suggests that within the relatively broad range we studied, WNV incubation rates are a simple function of mean temperature. Realistic daily temperature patterns that reflected mosquitoes' avoidance of daytime high temperatures during summer reduced transmission over time compared with air temperatures, indicating that adjustment for mosquito exposure temperatures would be prudent for calculating risk.

Published

2016

47. Updated distribution maps of predominant Culex mosquitoes across the Americas.

Author

Gorris, Morgan E., Bartlow, Andrew W., Temple, Seth D., Romero-Alvarez, Daniel, Shutt, Deborah P., Fair, Jeanne M., Kaufeld, Kimberly A., Del Valle, Sara Y., and Manore, Carrie A.

Subjects

*CULEX, *MEDICAL geography, *CULEX quinquefasciatus, *CULEX pipiens, *MOSQUITOES, *BIOGEOGRAPHY, *AEDES aegypti, *ENVIRONMENTAL risk

Abstract

Background: Estimates of the geographical distribution of Culex mosquitoes in the Americas have been limited to state and provincial levels in the United States and Canada and based on data from the 1980s. Since these estimates were made, there have been many more documented observations of mosquitoes and new methods have been developed for species distribution modeling. Moreover, mosquito distributions are affected by environmental conditions, which have changed since the 1980s. This calls for updated estimates of these distributions to understand the risk of emerging and re-emerging mosquito-borne diseases. Methods: We used contemporary mosquito data, environmental drivers, and a machine learning ecological niche model to create updated estimates of the geographical range of seven predominant Culex species across North America and South America: Culex erraticus, Culex nigripalpus, Culex pipiens, Culex quinquefasciatus, Culex restuans, Culex salinarius, and Culex tarsalis. Results: We found that Culex mosquito species differ in their geographical range. Each Culex species is sensitive to both natural and human-influenced environmental factors, especially climate and land cover type. Some prefer urban environments instead of rural ones, and some are limited to tropical or humid areas. Many are found throughout the Central Plains of the USA. Conclusions: Our updated contemporary Culex distribution maps may be used to assess mosquito-borne disease risk. It is critical to understand the current geographical distributions of these important disease vectors and the key environmental predictors structuring their distributions not only to assess current risk, but also to understand how they will respond to climate change. Since the environmental predictors structuring the geographical distribution of mosquito species varied, we hypothesize that each species may have a different response to climate change. [ABSTRACT FROM AUTHOR]

Published

2021

48. Weather Variability on Mosquito-borne Disease Distribution in Terengganu, Malaysia: A Retrospective Study.

Author

Halim, Nik Muhammad Hanif Nik Abdull, Dom, Nazri Che, Mokhtar, Megat Azman Megat, and Shaifuddin, Siti Norashikin Mohamad

Subjects

*WEATHER, *DISEASE outbreaks, *HUMIDITY, *DISEASE management, *RETROSPECTIVE studies, *LYME disease

Abstract

Introduction: The trend of several mosquito-borne diseases in Malaysia has shown an increasing pattern over the past few years despite close monitoring and continuous control initiatives by the public health authority. This study aimed to provide an assessment of the weather variability of mosquito-borne disease in Terengganu state from 2009 to 2018. Methods: Terengganu has been selected because it is geographically unique and experiences two monsoon seasons per year, which is known to influence the occurrence of mosquito-borne diseases. A ten-year data on mosquito-borne diseases and weather variables were used. Correlation analyses were used to determine the degree of the relationship between mosquito-borne disease and weather variables. Results: Overall, the results showed multiple variations in the relationship between weather variables with mosquito-borne disease cases. The results indicated a weak negative correlation between cases of rainfall and relative humidity throughout the study period. Conclusion: As a conclusion, having enough information on various patterns of weather variables is needed to provide an early warning system to stop the mosquito-borne disease outbreak through the management effective disease control programs. [ABSTRACT FROM AUTHOR]

Published

2021

49. Modeling seasonal variation for mosquito-borne disease in the tropical monsoon environment

Author

Ting-Ting Zheng, Lin-Fei Nie, Zhidong Teng, and Yantao Luo

Subjects

Mosquito-borne disease, Seasonal variation, Periodic solution, Stability and persistence, Mathematics, QA1-939

Abstract

Abstract Mosquitoes play an important role in the spread of mosquito-borne diseases. Considering the sensitivity of mosquitoes’ aquatic stage to the seasonal shift, in this paper, we present a seasonally forced mosquito-borne epidemic model by incorporating mosquitoes’ aquatic stage (eggs, larvae, and pupae) and seasonal shift factor, which is a periodic discontinuous differential system. Firstly, some sufficient conditions for the existence and uniqueness of a disease-free solution are obtained. Further, we define the basic reproduction number R 0 $\mathcal{R}_{0}$ , and obtain the stability of the disease-free solution when R 0 $\mathcal{R}_{0}$ is less than one. And, if R 0 $\mathcal{R}_{0}$ is greater than one, the mosquito-borne disease is uniformly persistent and the model admits a positive periodic solution. Finally, some numerical simulations are given to illustrate the main theoretical results. In addition, simulation results also imply that ignoring the effects of seasonal succession can overestimate or underestimate mosquito-borne disease trends.

Published

2020

50. Intensified Short Symptom Screening Program for Dengue Infection during Pregnancy, India

Author

Shilpa Naik, Matthew L. Robinson, Mallika Alexander, Ajay Chandanwale, Pradip Sambarey, Aarti Kinikar, Renu Bharadwaj, Gajanan N. Sapkal, Puja Chebrolu, Prasad Deshpande, Vandana Kulkarni, Smita Nimkar, Vidya Mave, Amita Gupta, and Jyoti Mathad

Subjects

dengue, dengue virus, viruses, pregnancy, mosquito-borne disease, screening program, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Mosquitoborne diseases (e.g., malaria, dengue, and chikungunya) are endemic to India and pose diagnostic challenges during pregnancy. We evaluated an intensified short symptom screening program in India to diagnose dengue during pregnancy. During October 2017–January 2018, we screened pregnant women during antenatal surveillance for symptoms of mosquitoborne diseases (fever only, fever with conjunctivitis, fever with rash, or all 3 symptoms) within the previous 15 days. Of 5,843 pregnant women screened, 52 were enrolled and tested for dengue, chikungunya, and Zika viruses by using a Trioplex real-time reverse transcription PCR. Of 49 who had complete results, 7 (14%) were dengue positive. Of these ocular pain was seen in 4 (57%) and conjunctivitis in 7 (100%). Intensified symptom screening using conjunctivitis, in addition to rash, in pregnant women with fever might improve dengue case detection and can be included in routine symptom screening during pregnancy.

Published

2020