Your search keyword '"Disease Vectors"' showing total 32,284 results

1. Targeting sex determination to suppress mosquito populations

Author

Li, Ming, Kandul, Nikolay P, Sun, Ruichen, Yang, Ting, Benetta, Elena D, Brogan, Daniel J, Antoshechkin, Igor, C, Héctor M Sánchez, Zhan, Yinpeng, DeBeaubien, Nicolas A, Loh, YuMin M, Su, Matthew P, Montell, Craig, Marshall, John M, and Akbari, Omar S

Subjects

Biological Sciences, Infectious Diseases, Emerging Infectious Diseases, Rare Diseases, Biodefense, Prevention, Vector-Borne Diseases, 3.2 Interventions to alter physical and biological environmental risks, Infection, Good Health and Well Being, Humans, Male, Animals, Mosquito Vectors, Aedes, Disease Vectors, Infertility, Male, Species Specificity, Zika Virus, Zika Virus Infection, pgSIT, SIT, genetics, biocontrol, None, genomics, none, Biochemistry and Cell Biology, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Each year, hundreds of millions of people are infected with arboviruses such as dengue, yellow fever, chikungunya, and Zika, which are all primarily spread by the notorious mosquito Aedes aegypti. Traditional control measures have proven insufficient, necessitating innovations. In response, here we generate a next-generation CRISPR-based precision-guided sterile insect technique (pgSIT) for Ae. aegypti that disrupts genes essential for sex determination and fertility, producing predominantly sterile males that can be deployed at any life stage. Using mathematical models and empirical testing, we demonstrate that released pgSIT males can effectively compete with, suppress, and eliminate caged mosquito populations. This versatile species-specific platform has the potential for field deployment to effectively control wild populations of disease vectors.

Published

2024

2. Serological evidence of natural exposure to rabies in rural populations in Gabon.

Author

Kombila, Linda Bohou, N'dilimabaka, Nadine, Lannoy, Julien, Elguero, Eric, Leroy, Eric M., Dacheux, Laurent, and Becquart, Pierre

Subjects

*ZOONOSES, *DISEASE vectors, *NEGLECTED diseases, *VACCINATION status, *RABIES

Abstract

Rabies is one of the oldest known zoonotic diseases, with dogs being the main reservoir for 99% of the cases of human rabies. However, wild animals may also be rabies vectors. In most cases, contact with a rabid animal results in rabies without pre- or post-exposure prophylaxis, and the disease is nearly always fatal. Nevertheless, a few studies have documented cases of rabies-specific antibodies detection in people with no history of vaccination, suggesting that individuals can be in contact with the virus without developing fatal rabies. To further investigate this possibility of non-lethal human rabies exposure, we carried out a retrospective serological analysis, using both immunoassays (ELISA) and seroneutralization assays (RFFIT), on 430 sera collected between 2005 and 2008 from rural unvaccinated Gabonese populations in the Estuaire and Ogooué-Ivindo provinces. Eleven (11) samples (2.5%) were positive for rabies-specific antibodies using both techniques: 1 in Estuaire and 10 in Ogooué-Ivindo. One of three positive people from the Ogooué-Ivindo province, resampled in early 2023, was still positive for rabies-specific antibodies, suggesting that some degree of immunity can be maintained over many years. Our results also show a marginally significant higher prevalence among hunters. This study demonstrates that rabies circulates actively in Gabon and some unvaccinated individuals living in rural environments can be exposed to the virus and survive, with the development of a significant and specific humoral response that can persist for more than 15 years. This passive seroprevalence survey underlines the need to establish a national surveillance system of rabies in both humans and animals in urban and rural areas, and to enhance access to pre- and post-exposure prophylaxis. Author summary: Rabies is one of the oldest neglected tropical diseases transmitted to humans, generally by dogs, but wild animals can also act as vectors of the disease. In most cases, a risk-contact with an infected animal without proper prophylaxis results in rabies, and the disease is nearly always fatal. Nevertheless, a few studies have documented the detection of rabies-specific antibodies in people having no history of vaccination, suggesting that exposition to the virus is possible without developing fatal rabies. To further investigate this possibility, we carried out a retrospective serological analysis on 430 sera collected between 2005 and 2008 from rural Gabonese populations. We detected 11 positive samples (2.5%). Three of these positive people was resampled in early 2023 and one was still found positive for rabies-specific antibodies, suggesting that immunity can persist over many years. This study demonstrates that rabies is actively circulating in Gabon and that some unvaccinated individuals living in rural environments can be exposed to the virus and survive. Survival despite exposure to rabies could be associated to the development of a significant and specific humoral response that persists for more than 15 years. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effects of fasting on the interplay between temperature and Trypanosoma cruzi infection on the life cycle of the Chagas disease vector Rhodnius prolixus.

Author

Loshouarn, Henri and Guarneri, Alessandra A.

Subjects

*LIFE cycles (Biology), *CHAGAS' disease, *RHODNIUS prolixus, *DISEASE vectors, *INSECT size

Abstract

Rhodnius prolixus, a triatomine insect, is one of the most important vectors of Chagas disease in South America. Its interaction with the parasite Trypanosoma cruzi, the causative agent of this disease, is known to be deeply affected by ambient temperature and the nutritional status of the insect vector. In this study, we investigated how starvation affects the life cycle of R. prolixus and the population dynamics of the parasite inside the intestine of the vector at four temperatures ranging from 24°C to 30°C. The weights and molting times of chronically infected and uninfected insects were monitored through repeated 30-day fasting periods from first instar to adult stage, assessing their capacity to retain blood meal weight between developmental stages and tracking parasite concentrations in their urine. Our results demonstrate that ambient temperature is a crucial factor affecting the resistance of R. prolixus to starvation, as survival, body weight, and weight retention greatly decreased in high temperature treatments. Furthermore, we showed that temperature significantly influenced whether T. cruzi established an infection in early instars, with few insects developing infections at the lowest and highest temperature treatments. Additionally, we discovered that a fasting period of 30 days induces a steady decrease in parasite populations in the vector over its lifetime. Infection by T. cruzi had no effect on the survival, molting time, and nutritional factors monitored in our protocol. Our results highlight the importance of nutrition as a determining factor for the development of the vector and the parasite, providing valuable insights for elucidating the complex interplay between temperature and nutrition in shaping the epidemiology of Chagas disease in a changing climate. Author summary: In this study we explored how starvation and temperature affect the relationship between the insect Rhodnius prolixus and the parasite Trypanosoma cruzi, causative agent of Chagas disease. R. prolixus is a key vector for this disease in South America. We examined the impact of repeated 30-day fasting periods on the life cycle of the insect and the population of the parasite at temperatures ranging from 24°C to 30°C. Higher temperatures negatively affected the survival of these insects under conditions of starvation. The insects lost more weight and had lower survival rates at higher temperatures. We also discovered that at 24°C and 30°C, fewer insects developed a chronic T. cruzi infection. Additionally, starvation led to a gradual reduction of the parasite population size in the insects over developmental stages. In this context, we found no effect of infection on R. prolixus. Our findings highlight the crucial role of the vector nutritional status in the development and survival of both the insect and the parasite. This research deepens our understanding of how temperature and the nutrition status of the vector together influence the spread of Chagas disease, providing valuable insights for predicting the epidemiology of the disease in a changing climate. [ABSTRACT FROM AUTHOR]

Published

2024

4. Clinical features and progression of Parkinson's disease with LRRK2 variants: A prospective study.

Author

Song, Tingwei, Zhou, Xiaoxia, Wang, Chunyu, Wu, Heng, Yan, Xinxiang, Guo, Jifeng, Tang, Beisha, Lei, Lifang, and Xu, Qian

Subjects

*PARKINSON'S disease, *DARDARIN, *DISEASE vectors, *CHINESE people, *LIFE expectancy, *HYPERSOMNIA

Abstract

Objective Methods Results Interpretation We established a prospective cohort study to investigate the differences in motor and non‐motor symptoms between idiopathic Parkinson's disease (IPD) and Parkinson's disease in carriers of leucine‐rich repeat kinase 2 (LRRK2) gene risk variants (LRRK2‐PD).The study included 1407 individuals with IPD and 649 individuals with LRRK2‐PD (comprising 304 with LRRK2‐G2385R, 220 with LRRK2‐R1628P, and 105 with LRRK2‐A419V). Differences in symptoms between LRRK2‐PD and IPD were analyzed using LCMM modeling and Cox regression analysis.The LRRK2‐G2385R variant showed slower progression in tremor symptoms and excessive daytime sleepiness compared with IPD. In contrast, symptoms associated with LRRK2‐R1628P and LRRK2‐A419V were more similar to those of IPD. Survival analysis revealed that LRRK2‐PD does not affect life expectancy compared with IPD.Our extended longitudinal follow‐up of LRRK2‐PD in the Chinese population provided valuable insights, further confirming the clinical characteristics of the three LRRK2 variants. [ABSTRACT FROM AUTHOR]

Published

2024

5. The effects of seasonal human mobility and Aedes aegypti habitat suitability on Zika virus epidemic severity in Colombia.

Author

Lieberthal, Brandon, Allan, Brian, De Urioste-Stone, Sandra, Mackay, Andrew, Soliman, Aiman, Wang, Shaowen, and Gardner, Allison M.

Subjects

*ZIKA Virus Epidemic, 2015-2016, *AEDES aegypti, *HEALTH planning, *INFECTIOUS disease transmission, *DISEASE vectors

Abstract

The Zika virus epidemic of 2015–16, which caused over 1 million confirmed or suspected human cases in the Caribbean and Latin America, was driven by a combination of movement of infected humans and availability of suitable habitat for mosquito species that are key disease vectors. Both human mobility and mosquito vector abundances vary seasonally, and the goal of our research was to analyze the interacting effects of disease vector densities and human movement across metapopulations on disease transmission intensity and the probability of super-spreader events. Our research uses the novel approach of combining geographical modeling of mosquito presence with network modeling of human mobility to offer a comprehensive simulation environment for Zika virus epidemics that considers a substantial number of spatial and temporal factors compared to the literature. Specifically, we tested the hypotheses that 1) regions with the highest probability of mosquito presence will have more super-spreader events during dry months, when mosquitoes are predicted to be more abundant, 2) regions reliant on tourism industries will have more super-spreader events during wet months, when they are more likely to contribute to network-level pathogen spread due to increased travel. We used the case study of Colombia, a country with a population of about 50 million people, with an annual calendar that can be partitioned into overlapping cycles of wet and dry seasons and peak tourism and off tourism seasons that drive distinct cyclical patterns of mosquito abundance and human movement. Our results show that whether the first infected human was introduced to the network during the wet versus dry season and during the tourism versus off tourism season profoundly affects the severity and trajectory of the epidemic. For example, Zika virus was first detected in Colombia in October of 2015. Had it originated in January, a dry season month with high rates of tourism, it likely could have infected up to 60% more individuals and up to 40% more super-spreader events may have occurred. In addition, popular tourism destinations such as Barranquilla and Cartagena have the highest risk of super-spreader events during the winter, whereas densely populated areas such as Medellín and Bogotá are at higher risk of sustained transmission during dry months in the summer. Our research demonstrates that public health planning and response to vector-borne disease outbreaks requires a thorough understanding of how vector and host patterns vary due to seasonality in environmental conditions and human mobility dynamics. This research also has strong implications for tourism policy and the potential response strategies in case of an emergent epidemic. Author summary: The Zika virus pandemic of 2015–16, which caused over 1 million human cases in the Caribbean and Latin America, was driven by a combination of movement of infected humans and presence of mosquito species, such as Aedes aegypti, that carry the disease. Both human mobility and mosquito vector densities vary seasonally, and the goal of our research was to analyze the interacting effects of disease vector presence and human movement across metapopulations on disease transmission intensity and the probability of super-spreader events. Specifically, we tested the hypotheses that 1) regions with the highest probability of mosquito presence will have more super-spreader events during dry months, when mosquitoes are predicted to be more abundant, 2) regions reliant on tourism industries will have more super-spreader events during wet months, as they are more likely to contribute to network-level pathogen spread due to increased travel. We used the case study of Colombia, a nation with a population of about 50 million people, whose annual calendar can be partitioned into overlapping cycles of wet and dry seasons and tourism and off-tourism seasons that drive distinct cyclical patterns of mosquito occurrence and human movement. Our approach combined spatial modeling of mosquito presence with network modeling of human mobility. We used a Maximum Entropy model to estimate the spatially and temporally varying habitat suitability for Aedes aegypti, the primary mosquito vector of Zika virus in Colombia, in terms of environmental factors such as temperature, precipitation, and vegetation coverage and human factors indicating land use and development, socioeconomic status, and prevalence of standing water that provides key habitat for juvenile mosquitoes. We also used airline travel data to develop metapopulation patch network models of the 1,123 municipalities of Colombia for each month of 2015 and 2016. We combined our vector habitat suitability and human mobility network models to simulate the Zika virus epidemic if it had begun in each month of 2015. Our results show that whether the first human case was introduced to the network during the wet vs. dry season and during the tourism vs. off-tourism season profoundly affects the severity and trajectory of the epidemic. For example, Zika virus was first detected in Colombia in October of 2015. Had it originated in January, a dry season month with high rates of tourism, it likely could have infected up to 30% more individuals and up to 40% more super-spreader events may have occurred. In addition, popular vacation spots such as Barranquilla and Cartageña have the highest risk of super-spreader events during the winter, whereas densely populated areas such as Medellín and Bogotá are at higher risk of sustained transmission during dry months in the summer. Our research demonstrates that public health planning and response to vector-borne disease outbreaks requires a thorough understanding of how vector and host patterns vary due to seasonality in environmental conditions and human mobility dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

6. Context-specific variation in life history traits and behavior of Aedes aegypti mosquitoes.

Author

Vinauger, Clément and Chandrasegaran, Karthikeyan

Subjects

*LIFE history theory, *AEDES aegypti, *LIFE cycles (Biology), *DISEASE vectors, *GENETIC variation, *MOSQUITO vectors

Abstract

Aedes aegypti, the vector for dengue, chikungunya, yellow fever, and Zika, poses a growing global epidemiological risk. Despite extensive research on Ae. aegypti's life history traits and behavior, critical knowledge gaps persist, particularly in integrating these findings across varied experimental contexts. The plasticity of Ae. aegypti's traits throughout its life cycle allows dynamic responses to environmental changes, yet understanding these variations within heterogeneous study designs remains challenging. A critical aspect often overlooked is the impact of using lab-adapted lines of Ae. aegypti, which may have evolved under laboratory conditions, potentially altering their life history traits and behavioral responses compared to wild populations. Therefore, incorporating field-derived populations in experimental designs is essential to capture the natural variability and adaptability of Ae. aegypti. The relationship between larval growing conditions and adult traits and behavior is significantly influenced by the specific context in which mosquitoes are studied. Laboratory conditions may not replicate the ecological complexities faced by wild populations, leading to discrepancies in observed traits and behavior. These discrepancies highlight the need for ecologically relevant experimental conditions, allowing mosquito traits and behavior to reflect field distributions. One effective approach is semi-field studies involving field-collected mosquitoes housed for fewer generations in the lab under ecologically relevant conditions. This growing trend provides researchers with the desired control over experimental conditions while maintaining the genetic diversity of field populations. By focusing on variations in life history traits and behavioral plasticity within these varied contexts, this review highlights the intricate relationship between larval growing conditions and adult traits and behavior. It underscores the significance of transstadial effects and the necessity of adopting study designs and reporting practices that acknowledge plasticity in adult traits and behavior, considering variations due to larval rearing conditions. Embracing such approaches paves the way for a comprehensive understanding of contextual variations in mosquito life history traits and behavior. This integrated perspective enables the synthesis of research findings across laboratory, semi-field, and field-based investigations, which is crucial for devising targeted intervention strategies tailored to specific ecological contexts to combat the health threat posed by this formidable disease vector effectively. [ABSTRACT FROM AUTHOR]

Published

2024

7. Epidemiologic and tick exposure characteristics among people with reported Lyme disease – Minnesota, 2011–2019.

Author

Earley, Austin R., Schiffman, Elizabeth K., Wong, Karen K., Hinckley, Alison F., and Kugeler, Kiersten J.

Subjects

*LYME disease, *IXODES scapularis, *DISEASE vectors, *OLDER people, *RECREATION areas

Abstract

Aims and Methods: In the United States, blacklegged Ixodes spp. ticks are the primary vector of Lyme disease. Minnesota is among the states with the highest reported incidence of Lyme disease, having an average of 1857 cases reported annually during 2011–2019. In contrast to the Northeast and mid‐Atlantic United States where exposure to ticks predominately occurs around the home, the circumstances regarding risk for exposure to blacklegged ticks in Minnesota are not well understood, and risk is thought to be highest in rural areas where people often participate in recreational activities (e.g. hiking, visiting cabins). We analysed enhanced surveillance data collected by the Minnesota Department of Health during 2011–2019 to describe epidemiologic and tick exposure characteristics among people with reported Lyme disease. Results: We found that younger age, male gender, residence in a county with lower Lyme disease risk, residence in the Minneapolis‐St. Paul metropolitan area, and an illness onset date later in the year were independently associated with higher odds of reporting tick exposures away from the home. We also describe the range of activities associated with tick exposure away from the home, including both recreational and occupational activities. Conclusions: These findings refine our understanding of Lyme disease risk in Minnesota and highlight the need for heterogeneous public health prevention messaging, including an increased focus on peridomestic prevention measures among older individuals living in high‐risk rural areas and recreational and occupational prevention measures among younger individuals living in the Minneapolis‐St. Paul metropolitan area. [ABSTRACT FROM AUTHOR]

Published

2024

8. Microbiota profile in organs of the horseflies (Diptera: Tabanidae) in Northeastern China.

Author

Hong-Yu Qiu, Qing-Bo Lv, Chun-Ren Wang, Hao Ju, Chun-Feng Luo, Shun-Shuai Liu, Mu-Han Na, Qiao-Cheng Chang, and Jia-Fu Jiang

Subjects

FRANCISELLA tularensis, ANAPLASMA marginale, PATHOGENIC microorganisms, DISEASE vectors, HORSEFLIES, BRUCELLA

Abstract

Tabanids, commonly known as horseflies and belonging to the family Tabanidae, are blood-feeding arthropods (BFA) found worldwide. They are known for their ability to mechanically and biologically transmit various animal pathogens. Tabanids are potential vectors for diseases such as Francisella tularensis, Anaplasma marginale, Theileria spp., and contributors to lumpy skin diseases. Despite their involvement in common BFA studies, tabanids have not been extensively explored in microbiome research. In this study, the microbiota structure and composition in various organs of four distinct genera of tabanids: Atylotus, Haematopota, Tabanus, and Hybomitra were examined. High-throughput sequencing of the bacterial 16S rRNA gene was performed to gain insights into the microbial communities associated with the different tabanid species. Result display that microbiota composition and diversity, including Firmicutes, Proteobacteria, and Bacteroidetes, varied significantly among the different organs, with the ovaries exhibiting significantly higher diversity. Apart from the Haematopota genus, Tenericutes were enriched in the midgut of other tabanid species, whereas the Malpighian tubules exhibited a higher abundance of Bacteroides. Notably, the ovarian microbiota structure was conserved among the four tabanid species, indicating its potential association with reproductive development. Evaluation of the potential pathogen risk revealed putative pathogens in over 100 genera associated with these tabanid commensal organisms. Twenty genera were annotated as zoonotic agents with a high abundance of Citrobacter and Brucella, highlighting the presence of this important group of zoonotic pathogens. Functional predictions of vector-microbiota interactions indicate that microbiota significantly affects vector biological traits and can influence pathogen transmission via direct interactions or by regulating host immunity and nutrition. For the first time, the distribution characteristics and functions of four genera of horsefly microbiota were analyzed, revealing the presence of multiple potential pathogenic microorganisms. These findings provide valuable insights for future research and the development of symbiotic-based strategies to control insectborne diseases among tabanids. [ABSTRACT FROM AUTHOR]

Published

2024

9. Insights into trypanosomiasis transmission: Age, infection rates, and bloodmeal analysis of Glossina fuscipes fuscipes in N.W. Uganda.

Author

Cunningham, Lucas J., Esterhuizen, Johan, Hargrove, John W., Lehane, Mike, Lord, Jennifer, Lingley, Jessica, Mangwiro, T. N. Clement, Opiyo, Mercy, Tirados, Iñaki, and Torr, Steve J.

Subjects

*AFRICAN trypanosomiasis, *AFRICAN animals, *TSETSE-flies, *TRYPANOSOMA, *VECTOR control, *DISEASE vectors

Abstract

Background: Tsetse flies (Glossina) transmit species of Trypanosoma which cause human African trypanosomiasis (HAT) and animal African trypanosomiasis (AAT). Understanding the epidemiology of this disease and controlling the vector rationally requires analysis of the abundance, age structure, infection rates and feeding patterns of tsetse populations. Methods: We analysed a population of G. fuscipes fuscipes in the Koboko district of Uganda. Seasonal variation in the abundance of tsetse was assessed from the numbers of tsetse caught in pyramidal traps. The age structure of the population was assessed by dissecting female tsetse to estimate their ovarian categories. Classical and PCR-based methods were utilised to determine the presence of the three major pathogenic species of salivarian trypanosomes: T. vivax, T. congolense and T. brucei in a subset (n = 2369) of flies. Further, bloodmeal analysis was carried using PCR to amplify and sequence a portion of the vertebrate cytb gene. Results: The abundance and age structure of tsetse populations were relatively stable and a slight seasonal four-fold variation in abundance appeared to be correlated with rainfall. Analyses of age structure suggests a low natural daily mortality of 1.75% (1.62–1.88). Infection rates estimated were significantly greater (1.9–9.3 times) using the PCR-based method compared to the classical dissection-based method. Positive rates for T. brucei sl, T. congolense and T. vivax were 1.6% (1.32–2.24), 2.4% (1.83–3.11and 2.0% (1.46–2.63), respectively by PCR. The majority of bloodmeals were identified as cattle (39%, 30.5–47.8) and human (37% of meals, 28.4–45.6). Conclusion: The seasonally stable abundance, low mortality rate and high proportion of bloodmeals from humans may explain, in part, why this district has historically been a focus of sleeping sickness. Additionally, the high rates of cattle feeding indicate insecticide treated cattle may prove to be a useful vector control strategy in the area. Author summary: Tsetse flies (Glossina) transmit African trypanosomiasis in humans ('sleeping sickness') and livestock ('nagana'). Quantifying the abundance, age structure, infection rates and host preferences of tsetse populations is important for designing and monitoring vector control operations. Tsetse were caught along the Kochi river in Koboko in N.W. Uganda. Age of tsetse was determined through ovarian ageing while dissection and PCR were both used for xenomonitoring. Feeding behaviour was inferred through bloodmeal analysis via sequence analysis. Analyses of these results showed that natural mortality was low (1.75%/day) among adult females and seasonal variation in abundance and age structure was relatively slight. PCR proved significantly more sensitive as a xenomonitoring tool than the classical dissection method with positive rates of 1.6%, 2.4% and 2% for T. brucei sl, T. congolense and T. vivax, respectively. The most important hosts were cattle followed by humans which provided 39% and 37% of bloodmeals respectively. The stable population in combination with a high rate of human blood feeding may help explain why this area has been a historic focus of sleeping sickness. The high proportion of bloodmeals from cattle suggest that insecticide treated cattle may prove to be an effective vector control strategy. [ABSTRACT FROM AUTHOR]

Published

2024

10. Bacterial microbiota from the gut of Rhodnius ecuadoriensis, a vector of Chagas disease in Ecuador’s Central Coast and Southern Andes J.

Author

Villacís, Juan F., López-Rosero, Andrea, José Bustillos, Juan, Cadena, Matías, Yumiseva, César A., Grijalva, Mario J., and Villacís, Anita G.

Subjects

NEGLECTED diseases, CHAGAS' disease, GUT microbiome, DISEASE vectors, GASTROINTESTINAL contents

Abstract

Introduction: Chagas disease is a neglected tropical disease caused by the parasite Trypanosoma cruzi that is transmitted mainly by the feces of infected Triatomines. In Ecuador the main vector is Rhodnius ecuadoriensis which is distributed in several provinces of the country. More than 40% of these insects in the wild have T. cruzi as part of their intestinal microbiota. For this reason, the objective of this research was to characterize the intestinal bacterial microbiota of R. ecuadoriensis. Methods: The methodology used was based on the DNA extraction of the intestinal contents from the wild collected insects (adults and nymphs V), as well as the insects maintained at the insectary of the CISeAL. Finally, the samples were analyzed by metagenomics extensions based on the dierent selected criteria. Results: The intestinal microbiota of R. ecuadoriensis presented a marked divergence between laboratory-raised and wild collected insects. This dierence was observed in all stages and was similar between insects from Loja and Manabí. A large loss of microbial symbionts was observed in laboratory-raised insects. Discussion: This study is a crucial first step in investigating microbiota interactions and advancing new methodologie. [ABSTRACT FROM AUTHOR]

Published

2024

11. A 3D printed device for vibration-assisted separation of different-stage mosquito larvae.

Author

Bursali, Fatma, Yetiskin, Erturan, and Ozcelik, Adem

Subjects

*DISEASE vectors, *OPTICAL microscopes, *THREE-dimensional printing, *MOSQUITOES, *STEREOLITHOGRAPHY

Abstract

AbstractMosquitoes, as major vectors of dangerous diseases, demand effective control measures for public health. Larvicides, while offering a potential solution, can exhibit varying effects on different mosquito species and developmental stages during efficacy studies. Standardizing mosquito developmental stages and ensuring optimal, synchronized development rates of various larval stages are crucial for larvicidal experiments and maximizing pupal production. Manual separation of different stages of larvae is labor intensive, time consuming and error prone. Therefore, this study aimed to investigate the use of a stereolithography 3D-printed device for the separation of mosquito larvae. This device is designed to have three modules to collect different larval stages based on their radial size differences. Each module of the device was equipped with small vibration motors to enable vibration-assisted filtration to prevent clogging. The accuracy of the larvae separation device was studied by repeated experiments and collected samples were analyzed under an optical microscope. The 3D-printed device was demonstrated to be orders of magnitude faster and more accurate compared to manual separation process. A larvicidal bioassay was also designed to investigate larvicidal assay impact on the survival of collected L3 and L4 specimens. Overall, it was shown that the presented device carries an important potential for rapid and accurate separation of different size larvae for larvicidal studies. [ABSTRACT FROM AUTHOR]

Published

2024

12. A Mathematical Analysis of the Impact of Immature Mosquitoes on the Transmission Dynamics of Malaria.

Author

Sualey, Nantogmah Abdulai, Akuka, Philip N. A., Seidu, Baba, Asamoah, Joshua Kiddy K., and Wu, Yunfeng

Subjects

MOSQUITOES, MALARIA, INFECTIOUS disease transmission, EPIDEMIOLOGY, DISEASE vectors, MALARIA prevention

Abstract

This study delves into the often‐overlooked impact of immature mosquitoes on the dynamics of malaria transmission. By employing a mathematical model, we explore how these aquatic stages of the vector shape the spread of the disease. Our analytical findings are corroborated through numerical simulations conducted using the Runge–Kutta fourth‐order method in MATLAB. Our research highlights a critical factor in malaria epidemiology: the basic reproduction number R0. We demonstrate that when R0 is below unity R0<1, the disease‐free equilibrium exhibits local asymptotic stability. Conversely, when R0 surpasses unity R0>1, the disease‐free equilibrium becomes unstable, potentially resulting in sustained malaria transmission. Furthermore, our analysis covers equilibrium points, stability assessments, bifurcation phenomena, and sensitivity analyses. These insights shed light on essential aspects of malaria control strategies, offering valuable guidance for effective intervention measures. [ABSTRACT FROM AUTHOR]

Published

2024

13. Nanoplatelets modified with RVG for targeted delivery of miR-375 and temozolomide to enhance gliomas therapy.

Author

Yang, Tingting, Zhang, Nan, Liu, Yuanyuan, Yang, Ruyue, Wei, Zhaoyi, Liu, Futai, Song, Dan, Wang, Longwei, Wei, Jiangyan, Li, Yuanpei, Shen, Deliang, and Liang, Gaofeng

Subjects

*CANCER chemotherapy, *BRAIN tumors, *DISEASE vectors, *THERAPEUTICS, *DIAGNOSIS, *BLOOD-brain barrier

Abstract

Gliomas are one of the most frequent primary brain tumors and pose a serious threat to people's lives and health. Platelets, a crucial component of blood, have been applied as drug delivery carriers for disease diagnosis and treatment. In this study, we designed engineered nanoplatelets for targeted delivery of therapeutic miR-375 and temozolomide (TMZ, a first-line glioma treatment agent) to enhance glioma therapy. Nanoplatelets were prepared through mild ultrasound, TMZ and miR-375 were co-loaded through ultrasound and electrostatic interactions, respectively, to combine chemotherapy with gene therapy against glioma. To improve the blood brain barrier (BBB) crossing efficiency and glioma targeting ability, the nanoplatelets were modified with central nervous system-specific rabies viral glycoprotein peptide (RVG) through thiol-maleimide click reaction. The RVG modified nanoplatelets co-loaded TMZ and miR-375 (NR/TMZ/miR-375) not only inherited the good stability and remarkable biocompatibility of platelets, but also promoted the cellular uptake and penetration of glioma tissues, and effectively induced cell apoptosis to enhance the therapeutic effect of drugs. In vivo studies showed that NR/TMZ/miR-375 significantly increased the circulation time of TMZ, and exhibited superior combined antitumor effects. In summary, this multifunctional 'natural' nanodrug delivery system provides a potent, scalable, and safety approach for platelet-based combined cancer chemotherapy and gene therapy. [ABSTRACT FROM AUTHOR]

Published

2024

14. Love thy neighbour: Feral buffalos show greater space use, resource overlap and encounters during the wet season in the Northern Territory.

Author

Pike, Kyana N., Perry, Justin, Vanderduys, Eric, Arnould, John P. Y., and Hoskins, Andrew

Subjects

*CONTINUOUS time models, *WATER buffalo, *SPATIAL ecology, *ENVIRONMENTAL degradation, *DISEASE vectors, *BIOSECURITY, *ENVIRONMENTAL risk

Abstract

Managing feral water buffalo in the Northern Territory is a formidable challenge. As an introduced species, buffalo are associated with a myriad of biosecurity, economic, cultural and environmental issues ranging from overgrazing, decreased water quality, disease vectors to the destruction of cultural assets. Nevertheless, the buffalo are also a harvestable resource that can support economic development of the region. To mitigate some of the biosecurity, economic, cultural and environmental risks they pose and manage buffalo effectively, we need a detailed understanding of their spatial and behavioural ecology. However, several factors make understanding how best to manage the dense populations of wild individuals challenging as buffalo inhabit remote areas with limited infrastructure and accessibility and their large size and often aggressive nature can make them difficult to observe in otherwise inaccessible areas. GPS tracking allows for high‐frequency data collection and surveillance of individual buffalo. Here, we investigated how the different seasonal periods of a Northern Territory floodplain area shaped patterns of habitat use for 17 buffalo tracked over 16 months. We found in the dry season, buffalo space use is restricted, and the size of home ranges are significantly smaller than in the wet season. During the wet season, buffalo expand their home range area as well as their social encounter area with other buffalo. These differences in their space use and social patterns suggest that increased disease surveillance may be needed for the wet season when buffalo are more likely to share space and interact. During the dry season, however, buffalo movement is more predictable and restricted, suggesting greater optimisation opportunities for buffalo management. Results from these models can be used by land holders, Traditional Owners and wildlife managers to make evidence‐based decisions to improve buffalo management with respect to disease risk, sustainable harvest and damage to environmental and cultural assets. [ABSTRACT FROM AUTHOR]

Published

2024

15. Empowering Communities through Citizen Science: Dengue Prevention in Córdoba.

Author

Estallo, Elizabet L., Madelon, Magali Isabel, Benítez, Elisabet M., Camacho-Rodríguez, Doriam, Martín, Mía E., Stewart-Ibarra, Anna M., and Ludueña-Almeida, Francisco F.

Subjects

*MOSQUITO-borne diseases, *DENGUE, *MOSQUITO vectors, *VECTOR-borne diseases, *DISEASE vectors, *MOSQUITO control

Abstract

Simple Summary: Dengue fever, a mosquito-borne disease, is spreading more widely, and traditional methods to control the vector mosquitoes have been ineffective. In Córdoba, Argentina, we studied if involving school students in educational projects could help communities better understand dengue and take steps to prevent it. Working with students and their families showed us that people learned more about the disease and adopted better practices to stop the mosquitoes from breeding. Student engagement was a powerful way to bring this knowledge into homes, leading to positive behavior changes. This research suggests that including these programs into school curricula all year round might help fight dengue in other areas facing similar challenges. Traditional mosquito vector control methods have proved ineffective in controlling the spread of dengue fever. This study aimed to assess the effectiveness of community engagement through student-led science in promoting dengue prevention and socioecological factors in the temperate urban city of Córdoba, Argentina. It assesses community perceptions, knowledge, attitudes, and preventive practices regarding dengue fever and its vector. Results showed a significant increase in knowledge about the vector and the disease and respondents' adoption of good preventive practices. Student-led science was identified as a valuable tool for reaching households and leading to behavior changes at home. Furthermore, the findings highlighted the need for school programs to address vector biology and vector-borne disease prevention all year round. This study provides invaluable insights into the effectiveness of community engagement through student-led science to promote dengue prevention and socioecological factors. The findings suggest that this approach could be used to control the spread in other regions affected by the disease. [ABSTRACT FROM AUTHOR]

Published

2024

16. Evaluation of Cyfluthrin and Etofenprox Resistance in House Fly Musca domestica Populations in Antalya, Türkiye.

Author

Oz, Emre

Subjects

*INSECTICIDE application, *DISEASE vectors, *LIVESTOCK losses, *CHEMICAL testing, *MUSCIDAE, *HOUSEFLY

Abstract

Simple Summary: House flies are important carriers of diseases and can cause economic losses in livestock by reducing feeding activity. Overuse of chemical insecticides has led to resistance in many house fly populations worldwide. This study aimed to assess how two house fly populations in Antalya, Türkiye respond to the insecticides cyfluthrin and etofenprox. By exposing adult flies to these chemicals, the researcher found that the Kemer population showed very low resistance to cyfluthrin, while the Serik population exhibited moderate resistance. For etofenprox, Kemer flies showed no resistance, and Serik flies showed very low resistance. The findings suggest that integrated pest control methods and regular resistance monitoring are necessary to manage and prevent further resistance in house fly populations. The house fly, Musca domestica L. (Diptera: Muscidae), is a significant vector for many pathogens and parasites. Presence of this vector causes economic losses due to decreased feeding activity in livestock, resulting in reduced yields of products. The repeated and unconscious application of chemical insecticides has resulted in the development of resistance in the majority of house fly populations worldwide. The aim of this research was to determine the susceptibility levels of two field M. domestica populations to cyfluthrin and etofenprox in Antalya, Türkiye. The LD50 values, resistance ratios, and resistance status were determined by exposing adult house flies to the test chemicals for one hour. The Kemer population exhibited very low resistance to cyfluthrin, with a 5-fold increase, while the Serik population, in contrast, showed moderate resistance with a 29.67-fold increase. The resistance ratios of field populations to etofenprox were 2.33-fold (no resistance) for Kemer and 6.44-fold (very low resistance) for Serik, respectively. This is the first study to determine the resistance levels of house flies against cyfluthrin and etofenprox insecticides in Türkiye. To prevent or reduce the development of resistance to insecticides in house flies, integrated control methods and resistance management programs should be employed. Furthermore, it is advised that regular monitoring tests be conducted to observe the level of resistance. [ABSTRACT FROM AUTHOR]

Published

2024

17. Insight from atomistic molecular dynamics simulations into the supramolecular assembly of the aldo-keto reductase from Trypanosoma cruzi.

Author

Trujillo, Pablo, Garavaglia, Patricia, Alvarez, Guadalupe, Aduviri, Sebastian, Domene, Carmen, Cannata, Joaquín, Asciutto, Eliana K., García, Gabriela A., and Pickholz, Mónica

Subjects

*MOLECULAR dynamics, *PROTEIN-protein interactions, *CHAGAS' disease, *DISEASE vectors, *TRYPANOSOMA cruzi

Abstract

Context: Currently, Chagas disease represents an important public health problem affecting more than 8 million people worldwide. The vector of this disease is the Trypanosoma cruzi (Tc) parasite. Our research specifically focuses on the structure and aggregation states of the enzyme aldo-keto reductase of Tc (TcAKR) reported in this parasite. TcAKR belongs to the aldo-keto reductase (AKR) superfamily, enzymes that catalyze redox reactions involved in crucial biological processes. While most AKRs are found in monomeric forms, some have been reported to form dimeric and tetrameric structures. This is the case for some TcAKR. To better understand how TcAKR multimers form and remain stable, we conducted a comprehensive computational analysis using molecular dynamics (MD) simulations. Our approach to elucidating the aggregation states of TcAKR involved two strategies. Initially, we explored the dynamic behaviour of pre-assembled TcAKR dimers. Subsequently, we examined the self-aggregation of eight monomers. This investigation led to the identification of crucial residues that contribute to the stabilization of protein-protein interactions. It was also found that TcAKRs can form stable supramolecular assemblies, with each monomer typically surrounded by three first neighbours. These findings align with experimental reports of tetrameric or more complex supramolecular structures. Our computational studies could guide further experimental investigations aiming at drug development and assist in designing strategies to modulate aggregation. Method: Atomistic molecular dynamics simulations were carried out. The TcAKR 3D model structure was obtained by homology modelling using the Swiss Model for the TcAKR sequence (GenBank accession no. EU558869). Further, we checked the model with Alphafold2 and found a high degree of similarity between models. Several tools were used to build the dimers including CLUSPRO, GRAMM-Docking, Hdock, and Py-dock. Protein superstructures were built using the PACKMOL package. CHARMM-GUI was used to set up the simulation systems. GROMACS version 2020.5 was used to perform the simulations with the CHARMM36 force field for the protein and ions and the TIP3P model for water. Further analyses were performed using VMD, GROMACS, AMBER tools, MDLovoFit, bio3d, and in-house programs. [ABSTRACT FROM AUTHOR]

Published

2024

18. A modified matrix model captures the population dynamics for the primary vector of Lyme disease in North America.

Author

Foster, John R., LaDeau, Shannon L., Oggenfuss, Kelly, Ostfeld, Richard S., and Dietze, Michael C.

Subjects

LIFE cycles (Biology), IXODES scapularis, LYME disease, BORRELIA burgdorferi, DISEASE vectors

Abstract

Lyme disease, the most prevalent tick‐borne disease in North America, is caused by the bacterium Borrelia burgdorferi, and in the eastern and central United States, it is spread to humans by the black‐legged tick (Ixodes scapularis). Due to the complex, multiyear and multihost life cycle of this species, a matrix modeling approach is needed to effectively estimate subseasonal, multistage survival and transition dynamics in order to better understand and predict when population growth is high. Of the three questing tick life stages (larvae, nymphs, and adults), nymphs are most often associated with transmitting the bacteria to humans, and previous work suggests a mix of abiotic and biotic drivers are associated with nymph abundance. However, understanding tick population growth requires understanding mortality and transition probabilities for each stage and each stage may be individually and uniquely impacted by climate and host availability. A larval tick, for example, may experience warming temperatures differently than nymph or adults, because they are present on the landscape at different times. Here, we describe and validate a model that accounts for field sampling design and evaluates abiotic (temperature, relative humidity, precipitation) and biotic (host abundance) drivers of variation in tick population growth. To account for the drivers of subseasonal and interannual variability in demography, phenology, and population density, we built stage‐structured population models that account for variability in meteorology and host population abundance throughout the full tick lifecycle. Our model is fit and validated with 11 years of tick and host data from the northeastern United States. In this context, we found that a four‐stage model that includes unique transitions to and from a dormant, overwintering nymph state outperforms a model that only includes the three questing stages, and that incorporating the abundance of the predominant host species, Peromyscus leucopus, and weather variables improved predictions and model fit. Additionally, the model accurately predicted all three questing stages at sites different than where they were calibrated, showing that this model structure is generally transferable. Overall, this model lays a foundation for the real‐time iterative forecasting of tick populations needed to effectively protect public health. [ABSTRACT FROM AUTHOR]

Published

2024

19. The Impact of Environmental and Housing Factors on the Distribution of Triatominae (Hemiptera, Reduviidae) in an Endemic Area of Chagas Disease in Puebla, Mexico.

Author

Ortega-Caballero, Miguel, Gonzalez-Vazquez, Maria Cristina, Hernández-Espinosa, Miguel Angel, Carabarin-Lima, Alejandro, and Mendez-Albores, Alia

Subjects

CHAGAS' disease, NEGLECTED diseases, TRIATOMA, DISEASE vectors, VECTOR-borne diseases

Abstract

Background: Chagas disease (CD), a Neglected Tropical Disease caused by Trypanosoma cruzi, affects millions of people in Latin America and the southern US and spreads worldwide. CD results from close interactions between humans, animals, and vectors, influenced by sociodemographic factors and housing materials. Methods: This study aimed to evaluate how these factors, along with seasonal changes, affect the distribution of CD vectors in an endemic community near Puebla, Mexico, using a cross-sectional survey. A total of 383 people from this area, known for the presence of major vectors such as Triatoma barberi and Triatoma pallidipennis, were surveyed. Results: As a result of the survey, it was found that only 27.4% of respondents knew about CD, and 83.3% owned potential reservoir pets; additionally, the quality of the wall, roof, and floor significantly influenced vector sightings, while the seasonal pattern showed less of an association. Chi-square tests confirmed these associations between vector sightings and housing materials (p < 0.001); vector sightings versus seasonal patterns showed less of an association (p = 0.04), and land use changes did not show an association (p = 0.27). Conclusions: Construction materials play an important role in the sighting of triatomines in homes, so important actions should be taken to improve homes. However, further experimental or longitudinal studies are needed to establish causality. [ABSTRACT FROM AUTHOR]

Published

2024

20. Toscana Virus in Wild-Caught Sand Flies in Portugal, Findings from the National Vector Surveillance Network, 2023.

Author

Amaro, Fátima, Zé-Zé, Líbia, Osório, Hugo Costa, Soares, Patrícia, Silva, Manuel, Freitas, Inês Campos, and Alves, Maria João

Subjects

SAND flies, VETERINARY medicine, DISEASE vectors, BIOMEDICAL technicians, COMMUNICABLE diseases

Abstract

Phlebotomine sand flies play a crucial role in both human and veterinary medicine, acting as vectors for Leishmania parasites and most known phleboviruses. In Portugal, the REVIVE program, a comprehensive national surveillance network under the Ministry of Health, has included sand fly surveys since 2016. REVIVE aims to identify existing sand fly species in the country, determine which pathogens are circulating among them, and provide actionable insights for prevention and control measures when necessary. In this way, annually, from May to October, health technicians collect sand flies across mainland Portugal with CDC light traps. The collected sand flies are sent to the Centre for Vectors and Infectious Diseases Research for species identification and molecular screening of pathogens. On 21 September 2023, Toscana virus (TOSV), a well-known phlebovirus in the Mediterranean region due to its capacity to cause neurological disease, was detected in a pool of 30 sand flies collected in Algarve, the southernmost region of Portugal. A 668 bp partial sequence of the nucleoprotein gene shows similarity with TOSV strains from Spain. To our knowledge, this is the first detection of TOSV in its vector in this country, having previously only been reported in vertebrate hosts. These findings highlight the important role of ongoing surveillance efforts in monitoring and understanding the dynamics of sand fly-borne diseases in Portugal. [ABSTRACT FROM AUTHOR]

Published

2024

21. Integrating dynamic models and neural networks to discover the mechanism of meteorological factors on Aedes population.

Author

Zhang, Mengze, Wang, Xia, and Tang, Sanyi

Subjects

*MACHINE learning, *POPULATION dynamics, *MOSQUITO-borne diseases, *CITIES & towns, *DISEASE vectors

Abstract

Aedes mosquitoes, known as vectors of mosquito-borne diseases, pose significant risks to public health and safety. Modeling the population dynamics of Aedes mosquitoes requires comprehensive approaches due to the complex interplay between biological mechanisms and environmental factors. This study developed a model that couples differential equations with a neural network to simulate the dynamics of mosquito population, and explore the relationships between oviposition rate, temperature, and precipitation. Data from nine cities in Guangdong Province spanning four years were used for model training and parameter estimation, while data from the remaining three cities were reserved for model validation. The trained model successfully simulated the mosquito population dynamics across all twelve cities using the same set of parameters. Correlation coefficients between simulated results and observed data exceeded 0.7 across all cities, with some cities surpassing 0.85, demonstrating high model performance. The coupled neural network in the model effectively revealed the relationships among oviposition rate, temperature, and precipitation, aligning with biological patterns. Furthermore, symbolic regression was used to identify the optimal functional expression for these relationships. By integrating the traditional dynamic model with machine learning, our model can adhere to specific biological mechanisms while extracting patterns from data, thus enhancing its interpretability in biology. Our approach provides both accurate modeling and an avenue for uncovering potential unknown biological mechanisms. Our conclusions can provide valuable insights into designing strategies for controlling mosquito-borne diseases and developing related prediction and early warning systems. Author summary: When simulating population dynamics, scholars often rely on predefined functions to describe processes such as growth, development, and mortality. However, these functions may not be able to accurately capture the underlying biological mechanisms, posing challenges for related research. In this study, we adopted a data-driven approach integrated with mechanistic principles to simulate mosquito dynamics. Given the unknown functional relationships between oviposition rate, temperature, and precipitation, we employed a neural network to model these relationships, resulting in a model that combines the neural network with traditional mechanistic approaches. This method can successfully simulate the changing trends of mosquitoes, infer unknown parameters, train the neural network, and capture the relationships between oviposition rate, temperature, and precipitation. Data from nine cities in Guangdong Province were used for model training, while data from the remaining three cities were used for model validation. Our model successfully fitted data from all cities using the same set of parameters, demonstrating satisfactory performance. On this basis, we successfully identified the functional form between oviposition rate, temperature, and precipitation through the symbolic regression algorithm, which was consistent with the results obtained from the neural network. These findings show that our method can accurately simulate population dynamics while exploring unknown biological mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

22. Utilizing citizen science data to rapidly assess changing associations between wild birds and avian influenza outbreaks in poultry.

Author

Vickers, Stephen H., Raghwani, Jayna, Banyard, Ashley C., Brown, Ian H., Fournie, Guillaume, and Hill, Sarah C.

Subjects

*AVIAN influenza A virus, *AVIAN influenza, *ANIMAL populations, *SPECIES distribution, *DISEASE vectors

Abstract

High pathogenicity avian influenza virus (HPAIV) is a rapidly evolving virus causing significant economic and environmental harm. Wild birds are a key viral reservoir and an important source of viral incursions into animal populations, including poultry. However, we lack a thorough understanding of which species drive incursions and whether this changes over time. We explored associations between the abundances of 152 avian species and outbreaks of highly pathogenic avian influenza (HPAI) in poultry premises across Great Britain between October 2021 and January 2023. Spatial generalized additive models were used, with species abundance distributions sourced from eBird. Associations were investigated at the species-specific level and across species aggregations. During autumn/winter, associations were generally strongest with waterbirds such as ducks and geese; however, we also found significant associations in groups such as non-native gamebirds and rapid change in species-specific associations over time. Our results demonstrate the value of citizen science to rapidly explore wild species as potential facilitators of disease incursions into well-monitored populations, especially in regions where viral surveillance in wild species is limited. This can be a critical step towards prioritizing targeted surveillance that could inform species-specific biosecurity measures; particularly for HPAIV, which has undergone sudden shifts in host range and continues to rapidly evolve. [ABSTRACT FROM AUTHOR]

Published

2024

23. Microbiota‐driven vaccination in soft ticks: Implications for survival, fitness and reproductive capabilities in Ornithodoros moubata.

Author

Cano‐Argüelles, Ana Laura, Piloto‐Sardiñas, Elianne, Maitre, Apolline, Mateos‐Hernández, Lourdes, Maye, Jennifer, Wu‐Chuang, Alejandra, Abuin‐Denis, Lianet, Obregón, Dasiel, Bamgbose, Timothy, Oleaga, Ana, Cabezas‐Cruz, Alejandro, and Pérez‐Sánchez, Ricardo

Subjects

*AFRICAN swine fever, *RELAPSING fever, *KEYSTONE species, *DISEASE vectors, *SALIVARY glands

Abstract

The Ornithodoros moubata (Om) soft tick, a vector for diseases like tick‐borne human relapsing fever and African swine fever, poses challenges to conventional control methods. With diminishing insecticide efficacy, harnessing the tick's microbiota through innovative approaches like microbiota‐driven vaccination emerges as a promising strategy for sustainable and targeted disease control. This study investigated the intricate relationship between Pseudomonas, a keystone taxon in the Om microbiome, and its impact on tick fitness, microbiome structure and network dynamics. Utilizing in silico analyses and empirical vaccination experiments, the role of Pseudomonas within microbial networks in the tick midguts (MG) and salivary glands (SG) of Om was studied. Additionally, the consequences of anti‐microbiota vaccines targeting Pseudomonas and Lactobacillus on tick fitness, microbiome diversity and community assembly were explored. The result of the study shows that in Om, Pseudomonas plays a central role in microbial networks, influencing keystone species despite being categorized as peripheral (interacting with 47 different taxa, 13 of which are keystone species). Anti‐microbiota vaccination targeting Pseudomonas and Lactobacillus yields distinct effects on tick fitness, with Pseudomonas vaccination significantly impacting female tick survival, while Lactobacillus significantly reduced oviposition and fertility. Microbiome changes post‐vaccination reveal diversity alterations, emphasizing the impact of vaccine choice. Community assembly dynamics and network robustness analyses highlight Pseudomonas' pivotal role, in influencing topological features and network resilience. The findings of the study provide comprehensive insights into the intricate dynamics of Om microbial networks and the potential of targeted microbiota‐driven vaccines for tick control. [ABSTRACT FROM AUTHOR]

Published

2024

24. Role of vector phenotypic plasticity in disease transmission as illustrated by the spread of dengue virus by Aedes albopictus.

Author

Brass, Dominic P., Cobbold, Christina A., Purse, Bethan V., Ewing, David A., Callaghan, Amanda, and White, Steven M.

Subjects

AEDES albopictus, PHENOTYPIC plasticity, INFECTIOUS disease transmission, DENGUE viruses, VECTOR-borne diseases, DISEASE vectors, MOSQUITO vectors, MOSQUITO control

Abstract

The incidence of vector-borne disease is on the rise globally, with burdens increasing in endemic countries and outbreaks occurring in new locations. Effective mitigation and intervention strategies require models that accurately predict both spatial and temporal changes in disease dynamics, but this remains challenging due to the complex and interactive relationships between environmental variation and the vector traits that govern the transmission of vector-borne diseases. Predictions of disease risk in the literature typically assume that vector traits vary instantaneously and independently of population density, and therefore do not capture the delayed response of these same traits to past biotic and abiotic environments. We argue here that to produce accurate predictions of disease risk it is necessary to account for environmentally driven and delayed instances of phenotypic plasticity. To show this, we develop a stage and phenotypically structured model for the invasive mosquito vector, Aedes albopictus, and dengue, the second most prevalent human vector-borne disease worldwide. We find that environmental variation drives a dynamic phenotypic structure in the mosquito population, which accurately predicts global patterns of mosquito trait-abundance dynamics. In turn, this interacts with disease transmission to capture historic dengue outbreaks. By comparing the model to a suite of simpler models, we reveal that it is the delayed phenotypic structure that is critical for accurate prediction. Consequently, the incorporation of vector trait relationships into transmission models is critical to improvement of early warning systems that inform mitigation and control strategies. There is a need for accurate models to predict disease dynamics by considering the interactions between environment and vector traits. This study finds that incorporating delayed phenotypic plasticity in mosquito traits significantly enhances the accuracy of dengue risk predictions. [ABSTRACT FROM AUTHOR]

Published

2024

25. A Study of The Spinal Muscular Atrophy Cohorts in The Eastern Anatolia Region of Türkiye.

Author

Yaralı, Oğuzhan, Öğütlü, Ozge Beyza Gündoğdu, Sarıtaş, Serdar, Güler, Mustafa Can, and Keskin, Filiz

Subjects

*SPINAL muscular atrophy, *GENETIC testing, *COUNSELING, *DISEASE vectors, *URBAN hospitals

Abstract

Objective: The purpose of this research is to carry out a genetic cohort study of SMA patients in the Eastern Anatolia region of Turkey, investigating the genetic causes of the illness, specifically the impact of the number of SMN1 and SMN2 gene alleles on the course of the disease. Methods: The Erzurum Medical Faculty of Health Sciences at Erzurum City Hospital gave ethical approval for the study to be conducted. A total of 348 patients with an initial diagnosis of SMA underwent genetic testing. Using the PCR-RFLP approach, deletions of exons 7 and 8 in the SMN1 and SMN2 genes were examined. Results: In examining the allele counts in the exon 7 and exon 8 regions of the SMN1 and SMN2 genes, 41 patients were found to have no copies of the SMN1 gene (0 alleles), while 112 people were identified as possible carriers. Analysis of the SMN2 gene's allele distribution revealed a substantial relationship between the number of alleles and the clinical severity of the disease. Conclusion: The number of alleles in the SMN1 and SMN2 genes influences the course of the disease, as demonstrated by the genetic cohort analysis of SMA patients in the Eastern Anatolia region of Turkey presented in this paper. The findings indicate that sex does not influence the frequency of the disease or carrier status, offering significant new insights into the genetic diagnosis and treatment of SMA. The study also emphasizes the importance of establishing local genetic screening programs and counseling services to facilitate early diagnosis and treatment. [ABSTRACT FROM AUTHOR]

Published

2024

26. Scanning Electron Microscopy of Cuticular Deformations in Culex pipiens Linnaeus, 1758 (Diptera: Culicidae) Larvae Associated with Larvicidal Effect of Nanoemulsion of Pimpinella anisum L. Essential Oil.

Author

Abdel-Nasser, Eman, Hafez, Jehan A., Badawy, Rawda M., Rizk, Sameh A., Hefni, Hassan H., and Azmy, Radwa M.

Subjects

*CULEX pipiens, *SCANNING electron microscopy, *ESSENTIAL oils, *DISEASE vectors, *MOSQUITOES

Abstract

Culex pipiens Linnaeus, 1758 is the chief vector of dangerous diseases such as lymphatic filariasis in tropic and subtropic regions. The current study aimed to investigate the larvicidal effect of nanoemulsion of Pimpinella anisum L. essential oil by studying the associated cuticular deformations in Culex pipiens larvae via scanning electron microscopy. The nanoemulsion was prepared using ultrasonication method. The mean droplet size of the nanoemulsion was 116nm, with poly dispersity index equal to 0.21. The LC50 of the nanoemulsion was 40.1ppm. The third instar larvae were treated with the LC50 of the prepared nanoemulsion. The cuticular deformations possibly inhibited the ability of the larvae to continue developing leading at the end to the death of these treated larvae. This is the first report to demonstrate the association between the nanoemulsion of Pimpinella anisum and the cuticular changes of Culex pipiens larvae. The results of the present study proved that nanoemulsion of Pimpinella anisum EO can be considered as a promising candidate in the integrated management programs to control Culex pipiens. [ABSTRACT FROM AUTHOR]

Published

2024

27. Schistosomiasis and Geographical Distribution of Aquatic Mollusks and Disease Vectors in the Gharb Plain (Morocco).

Author

EL-hassouni, Sara, Mansouri, Dalale, Jaghror, Hafida, Kaioua, Samiha, Slim, Mostafa, and Dahmani, Jamila

Subjects

*SCHISTOSOMA haematobium, *SCHISTOSOMIASIS, *DISEASE vectors, *MOLLUSKS, *PLAINS

Abstract

This research work presents the malacological and schistosomiasis status in the Gharb, one of the large plains in northwestern Morocco, just before its redevelopment following the commissioning of a new and large dam, El Wahda. The results show that no danger was posed to humans by the populations of Planorbis metidjensis (Forbes, 1838) during the current study. In addition, an overlap of the distribution of schistosome infestation was monitored and the intermediate hosts raise several issues, notably: (1) the problem of the external or local origin of schistosomiasis in certain schistosomiasis foci in the Gharb plain; (2) a change, in time and space, in the geographical distribution of the intermediate host foci is possible; (3) a change in the infestation rate of the populations of the intermediate host is also possible; (4) Physa acuta (Draparnaud, 1805), the species whose presence is constant in schistosomiasis foci and which is experimentally infectable by Schistosoma haematobium (Bilharz, 1852) in the literature, may likely constitute a third vector of schistosomiasis in Morocco. [ABSTRACT FROM AUTHOR]

Published

2024

28. Survey of Gastro-intestinal and Ectoparasites of Games in Ogun State, Nigeria.

Author

Akande, F. A., Olaniyan, K. O., Osifade, O. A., and Takeet, M. I.

Subjects

*BROWN dog tick, *GAME & game-birds, *DISEASE vectors, *ANIMAL populations, *GASTROINTESTINAL system, *HELMINTHS

Abstract

Games are wild animals often referred to as "bushmeat" when killed, primarily for personal consumption and/or monetary exchange. Parasites of games, such as protozoa, helminths, and ectoparasites, have not always been reported; however, they are essentially zoonotic, thereby putting animal and human populations at risk whenever present. The lack of information on these parasites, as well as the danger of their presence, necessitated this study to provide baseline data regarding the area, as well as information on possible zoonosis at the human-animalenvironment interface. Physical examination was conducted on animals brought from hunting sprees to the "bushmeat" market during which all visible ectoparasites were harvested and were kept in 70% ethanol, samples were harvested from portions of the gastrointestinal tract of freshly killed games and transferred into well-labelled containers by ligation of each portion to assay for Gastrointestinal Parasites (GIP). The samples were analysed using centrifugal flotation for GIP and morphology for ectoparasite identification. Grasscutter (Thryonomys swinderianus) and Antelope (Maxwell's duiker, Philantomba maxwellii) were examined during the study period, with 90.9% and 66.7% mixed and 9% and 25% mono infections, respectively. GIP eggs were Strongyle (36.4%, 25%), Trichuris (45.5%, 16.7%), Haemonchus (18.2%, 16.7%), Strongyloides (18.2%, 16.7%), Ascaridia (9%, 16.7%), and Eimeria (63.6%, 75%) in Grasscutter and Antelope, respectively, whereas Moniezia (25%), Taenia (16,7%), and Hookworm (18.2%) occurred only in the antelope, with the highest infection in the ileum and colon (63.6%), and rectum (83%) of Grasscutter and antelope, respectively. Four genera of ticks were identified: Amblyomma (41%), Rhipicephalus (Boophilus) microplus (20.5%), Rhipicephalus sanguineus (17.9%), Haemaphysalis (12.8%), and Hyalomma (7.7%). The presence of zoonotic GIP and ticks, which are known vectors of various diseases, calls for further studies, education, and awareness among the hunting community. [ABSTRACT FROM AUTHOR]

Published

2024

29. Evaluation of the biodiversity and distribution of sand flies and tracking of Leishmania major in them in central Iran.

Author

Badiezadeh, Parisima, Esmaeilifallah, Mahsa, Haddadniaa, Mehdi, and Abtahi, Seyed Mohammad

Subjects

*RESEARCH funding, *DISEASE vectors, *ECOSYSTEMS, *DESCRIPTIVE statistics, *VECTOR-borne diseases, *INSECTS, *LEISHMANIASIS

Abstract

Many areas of Iran are endemic regarding Cutaneous leishmaniasis (CL) as a parasitic disease transmitted by a female sand fly vector's bite. The present study investigated the distribution of sand flies in Harand and Egieh in Isfahan province, Central Iran. Overall, 408 out of 1260 collected sand flies were identified morphologically, among which 353 and 55 were isolated from Harand and Egieh, respectively. Also, 66.4% and 33.6% of the sand flies were female and male, respectively. The most prevalent sand fly species were Phlebotomus papatasi (52%), followed by Ph. caucasicus (40.4%), Sergentomyia sintoni (4.9%), and Ph. kazeruni (0.7%). Among 180 molecularly-analyzed sand flies, 14 (7.77%) were found infected with L. major, with 9 out of 103 (8.73%) Ph. papatasi and 5 out of 75 (6.66%) Ph. caucasicus. [ABSTRACT FROM AUTHOR]

Published

2024

30. Cochlosoma anatis in Poultry and its Industry Impact.

Author

Lowery, Justin, Chadwick, Elle, Chen, Chongxiao, Beckstead, Robert, and Walker, Lin

Subjects

INTESTINAL infections, WEIGHT gain, DISEASE vectors, POULTRY industry, MICROSCOPY, WILD turkey

Abstract

Copyright of Avian Diseases is the property of American Association of Avian Pathologists, Inc. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

31. Negative health classifications: understanding avoidance and social exclusion during a pandemic.

Author

Rothmüller, Barbara

Subjects

COVID-19 pandemic, SOCIAL marginality, POLARIZATION (Social sciences), DISEASE vectors, COMMON sense

Abstract

During a pandemic, there is a fine line between distancing and avoiding other people, with stigmatizing classifications sometimes transforming social distance into social exclusion. Drawing on Bourdieu's under-utilised theory of classification struggles, this paper conceptualises schemes of pandemic Othering in terms of Negative Health Classifications. Complementing the interactionist approach in pandemic stigma research, classification struggles are a social practice that denote a conceptual link between the individual and social structures of inequality. When social structures are unstable, as was the case during the pandemic, an established common sense can become questionable. Based on the analysis of survey data from 2606 respondents collected during one of the peaks of COVID-19 in Austria and Germany, the paper explores two struggles over health classifications, (1) social cleavages created and exacerbated by individuals who strive to tackle medical crises by avoiding the 'disease carriers', and (2) conflict over illegitimate pandemic practices resulting in the loss of social capital and a polarization of social groups. The findings offer evidence of widespread negative health classifications emerging during the COVID-19 pandemic that future research should explore in their implications for inequalities in other health policy contexts. [ABSTRACT FROM AUTHOR]

Published

2024

32. Neotropical Bats play natural predators of medically important Culicidae.

Author

SEGURA-TRUJILLO, CINTYA A., TICUL ÁLVAREZ-CASTAÑEDA, SERGIO, CASTAÑEDA-RICO, SUSETTE, and MALDONADO, JESÚS E.

Subjects

BIOLOGICAL control of mosquitoes, BIOLOGICAL pest control agents, INSECT pests, DISEASE vectors, MOSQUITO vectors

Abstract

Copyright of Therya is the property of Asociacion Mexicana de Mastozoologia, A. C. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

33. Distribution Survey of Babesia and Assessment of Tick-borne Diseases in Jeju, Republic of Korea

Author

Jiro KIM and YoungMin YUN

Subjects

babesia, disease vectors, polymerase chain reaction, public health, tick-borne diseases, Medicine (General), R5-920

Abstract

From March to November 2021, a study conducted in Jeju used the dry ice trap method to collect 17,855 ticks across six regions, examining their distribution and potential as disease vectors. The ticks were identified and categorized by species and growth stage. In addition, the study focused on Babesia, a disease transmitted by hard ticks. Of 17,641 ticks from which DNA had been extracted, 581 pools underwent polymerase chain reaction testing. Of these, 43 pools tested positive for Babesia, with the highest positivity found in Western Seogwipo (23 pools, 53.5%), followed by eastern Seogwipo and central Jeju. The peak times for positive results were April and July. This study highlights an increased risk of tick bites linked to the rising number of abandoned pets in Jeju, necessitating ongoing environmental management and monitoring. These findings provide fundamental data for formulating strategies to prevent and manage tick-borne diseases in Jeju. This involves reducing the disease incidence through targeted preventive measures and detailed epidemiological research. These results underscore the necessity for continued vigilance and proactive intervention to address the health challenges ticks pose in the region.

Published

2024

34. Pollution levels of pig waste from the bolu animal market in terms of public perception.

Author

Sirajuddin, Sitti Nurani, Nurlaelah, Siti, Amrawaty, Amidah, Saudi, Nur Dwiana Sari, and Ahmad, Ahfandi

Subjects

*DISEASE vectors, *AIR pollution, *PUBLIC opinion, *JUDGMENT sampling, *DATA analysis

Abstract

This study aimed to measure the pollution level of pig waste of the waste of pig feces from the Bolu Animal Market, North Toraja Regency. The research was conducted in August 2022 at the sponge market, North Toraja Regency. The population was all the people who live around the Bolu animal market, North Toraja Regency. The number of samples used in this study was 44 respondents using the purposive sampling method or chosen intentionally. The type of research used was descriptive research. The data collection methods used were observation and interviews. The analysis of the data used was descriptive. The findings revealed that the presence of a pungent odour from pig feces, which resulted in a high number of flies that could be disease vectors, most disturbed people's perceptions of air pollution at the Bolu Animal Market. [ABSTRACT FROM AUTHOR]

Published

2024

35. Modelling a biological invasion of public health pest species using a population dynamics system.

Author

Sharif, Umi Syahirah Umar and Mohd, Mohd Hafiz

Subjects

*INFECTIOUS disease transmission, *BIOLOGICAL invasions, *DISEASE vectors, *ALLEE effect, *VIRAL transmission, *MOSQUITO control

Abstract

Biological invasion and range expansion are important areas of research especially for public health pests like mosquitoes, which are vectors for dengue diseases. In this work, a mathematical model incorporating competition, Allee effects and abiotic environmental factors is employed to describe mosquitoes' vital interaction dynamics. By using dynamical systems and bifurcation analysis techniques, the model is demonstrated to possess a backward bifurcation under certain conditions. We also uncover some bifurcational changes in dynamics such as alternative stable states phenomenon, which can shape the transmission dynamics of viral infections. Overall, our findings provide fundamental knowledge on the crucial determinants of vector species spreads and the underlying mechanisms that can determine the transmission of vector-borne diseases. [ABSTRACT FROM AUTHOR]

Published

2024

36. Engineering small extracellular vesicles with multivalent DNA probes for precise tumor targeting and enhanced synergistic therapy.

Author

Zhang, Qi, Ma, Ruo-Fei, Ren, Ting-Ju, Ren, Xiu-Yan, and Xu, Zhang-Run

Subjects

*DNA probes, *DRUG delivery systems, *EXTRACELLULAR vesicles, *DISEASE vectors, *MANGANESE dioxide

Abstract

Multivalent DNA probes were creatively designed and decorated on small extracellular vesicles for precise tumor targeting and enhanced synergistic therapy. [Display omitted] • The engineered sEVs achieved precise tumor targeting and synergistic therapy. • Multivalent DNA probes were designed to enhance targeting ability. • Telomerase triggered intracellular nanocarriers aggregation was creatively proposed. • The nanocarrier enables site-specific and photo-controlled drug release. Small extracellular vesicles (sEVs) have gained wide attention as efficient carriers for disease treatment. However, the proclivity of sEVs to be ingested by source cells is insufficient to accurately target specific sites, posing a challenge in realizing controlled targeting treatment. Here, we developed an engineered sEV nanocarrier capable of precise tumor targeting and enhanced synergistic therapy. Multivalent DNA probes, comprising abundant AS1411 aptamers and telomerase primers, were innovatively modified on the sEV membrane (M-D-sEV) for precise tumor targeting. To achieve synergistic therapy, gold nanorod-cerium oxide nanostructures (Au NRs-CeO 2) and manganese dioxide nanosheets-doxorubicin (MnO 2 NSs-DOX) were encapsulated into liposomes (Lip-Mat). Then M-D-sEV and Lip-Mat were fused together through membrane fusion to obtain nanocarriers. Owing to the multivalence of the probes, the surface of the nanocarriers was loaded with numerous aptamers, which greatly enhances their targeting ability and promotes the accumulation of drugs. When nanocarriers were ingested by tumor cells, telomerase and multivalent DNA probes triggered their aggregation, enhancing the therapeutic effect. Furthermore, under laser irradiation, Au NRs-CeO 2 converted light into hyperthermia, thereby inducing the destruction of nanocarriers membrane. This process initiated a series of reactions involving glutathione and H 2 O 2 consumption, as well as DOX release, ultimately achieving synergistic tumor therapy. In vitro and in vivo studies demonstrated the remarkable targeting ability of multivalent DNA probes and excellent therapeutic effect of this strategy. The engineered strategy of sEVs provide a promising approach for precise tumor therapy and hold great potential for the development of efficient, safe, and personalized drug delivery systems. [ABSTRACT FROM AUTHOR]

Published

2025

37. Incorporating Genetic Risk Into Prostate Cancer Care: Implications for Early Detection and Precision Oncology.

Author

Amini, Andrew E. and Salari, Keyan

Subjects

*EARLY diagnosis, *WATCHFUL waiting, *DISEASE management, *GENETIC testing, *DISEASE vectors, *PROSTATE cancer

Abstract

The availability and cost of germline and somatic genetic testing have dramatically improved over the past two decades, enabling precision medicine approaches in oncology, with significant implications for prostate cancer (PCa) care. Roughly 12% of individuals with advanced disease are carriers of rare pathogenic germline variants that predispose to particularly aggressive and earlier-onset disease. Several of these variants are already established as clinically actionable by modern precision oncology therapeutics, while others may come to aid the selection of active surveillance, definitive local therapies, and systemic therapies. Concurrently, the number of common variants (ie, incorporated into polygenic risk scores) associated with PCa risk has continued to grow, but with several important considerations both at the intersection of race and ancestry and for early detection of aggressive disease. Family history has historically been used as a proxy for this inherited genetic risk of PCa, but recently emerging evidence examining this relation has shifted our understanding of how best to leverage this tool in PCa care. This review seeks to clarify and contextualize the existing and emerging precision oncology paradigms that use inherited genetic risk in PCa care, for both early detection and localized disease management. [ABSTRACT FROM AUTHOR]

Published

2024

38. Aedes albopictus colonies from different geographic origins differ in their sleep and activity levels but not in the time of peak activity.

Author

Wynne, Nicole E., Applebach, Emilie, Chandrasegaran, Karthikeyan, Ajayi, Oluwaseun M., Chakraborty, Souvik, Bonizzoni, Mariangela, Lahondère, Chloé, Benoit, Joshua B., and Vinauger, Clément

Subjects

*AEDES albopictus, *SLEEP, *POPULATION density, *DISEASE vectors, *CHRONOTYPE

Abstract

Mosquitoes occupy a wide range of habitats where they experience various environmental conditions. The ability of some species, such as the tiger mosquito, Aedes albopictus, to adapt to local conditions certainly contributes to their invasive success. Among traits that remain to be examined, mosquitoes' ability to time their activity with that of the local host population has been suggested to be of significant epidemiological importance. However, whether different populations display heritable differences in their chronotype has not been examined. Here, we compared laboratory strains originating from eight populations from three continents, monitored their spontaneous locomotor activity patterns and analysed their sleep‐like states. Overall, all strains showed conserved diurnal activity concentrated in the hours preceding the crepuscule. Similarly, they all showed increased sleep levels during the morning and night hours. However, we observed strain‐specific differences in the activity levels at each phase of the day. We also observed differences in the fraction of time that each strain spends in a sleep‐like state, explained by variations in the sleep architecture across strains. Human population density and the latitude of the site of the geographic origin of the tested strain showed significant effects on sleep and activity patterns. Altogether, these results suggest that Ae. albopictus mosquitoes adapt to local environmental conditions via heritable adaptations of their chronotype. [ABSTRACT FROM AUTHOR]

Published

2024

39. Intra‐species quantification reveals differences in activity and sleep levels in the yellow fever mosquito, Aedes aegypti.

Author

Ajayi, Oluwaseun M., Susanto, Emily E., Wang, Lyn, Kennedy, Jasmine, Ledezma, Arturo, Harris, Angeli'c, Smith, Evan S., Chakraborty, Souvik, Wynne, Nicole E., Sylla, Massamba, Akorli, Jewelna, Otoo, Sampson, Rose, Noah H., Vinauger, Clément, and Benoit, Joshua B.

Subjects

*AEDES aegypti, *SLEEP duration, *MOSQUITO vectors, *DISEASE vectors, *MOSQUITOES, *MOSQUITO control

Abstract

Aedes aegypti is an important mosquito vector of human disease with a wide distribution across the globe. Climatic conditions and ecological pressure drive differences in the biology of several populations of this mosquito species, including blood‐feeding behaviour and vector competence. However, no study has compared activity and/or sleep among different populations/lineages of Ae. aegypti. Having recently established sleep‐like states in three mosquito species with observable differences in timing and amount of sleep among species, we investigated differences in activity and sleep levels among 17 Ae. aegypti lines drawn from both its native range in Africa and its invasive range across the global tropics. Activity monitoring indicates that all the lines show consistent diurnal activity, but significant differences in activity level, sleep amount, number of sleep bouts and bout duration were observed among the lines. The variation in day activity was associated with differences in host preference and ancestry for the lineages collected in Africa. This study provides evidence that the diurnal sleep and activity profiles for Ae. aegypti are consistent, but there are significant population differences for Ae. aegypti sleep and activity levels and interactions with host species may significantly impact mosquito activity. [ABSTRACT FROM AUTHOR]

Published

2024

40. Are Rattus rattus fleas invasive? Evaluation of flea communities in invasive and native rodents in Chile.

Author

Lizama‐Schmeisser, Nicol, de Castro, Elaine Serafin, Espinoza‐Carniglia, Mario, Herrera, Yessica, Silva‐de La Fuente, María Carolina, Lareschi, Marcela, and Moreno, Lucila

Subjects

*NATIVE species, *RODENT populations, *INTRODUCED species, *DISEASE vectors, *FLEAS, *RATTUS rattus

Abstract

Co‐invasion, characterized by the simultaneous introduction of hosts and parasites with the latter establishing themselves in native hosts, is a phenomenon of ecological concern. Rattus rattus, a notorious invasive species, has driven the extinction and displacement of numerous avian and mammalian species and serves as a key vector for diseases affecting both humans and wildlife. Among the parasites hosted by R. rattus are fleas, which exhibit obligate parasitic behaviour, a generalist nature and high prevalence, increasing the likelihood of flea invasion. Simultaneously, invasive species can serve as hosts for native parasites, leading to potential amplification or dilution of parasite populations in the environment. In Chile, R. rattus has been present since the 17th century because of the arrival of the Spanish colonizers through the ports and has spread throughout urban, rural and wild Chilean territories. This study aims to evaluate whether co‐invasion of native fleas of invasive rats occurs on native rodents in Chile and to determine whether black rats have acquired flea native to Chile during their invasion. For this, we captured 1132 rodents from 26 localities (20° S–53° S). Rattus rattus was found coexisting with 11 native rodent species and two species of introduced rodents. Among the native rodents, Abrothrix olivacea and Oligoryzomys longicaudatus exhibited more extensive sympatry with R. rattus. We identified 14 flea species associated with R. rattus, of which only three were native to rats: Xenopsylla cheopis, Leptopsylla segnis and Nosopsyllus fasciatus. These three species presented a higher parasite load in black rats compared to native fleas. Leptopsylla segnis and N. fasciatus were also found associated with native rodent species that cohabit with R. rattus. The remaining species associated with R. rattus were fleas of native rodents, although they were less abundant compared to those associated with native rodents, except for Neotyphloceras pardinasi and Sphinctopsylla ares. Although there has been evidence of flea transmission from rats to native species, the prevalence and abundance were relatively low. Therefore, it cannot be definitively concluded that these fleas have established themselves in native rodent populations, and hence, they cannot be classified as invasive fleas. This study underscores R. rattus' adaptability to diverse environmental and geographical conditions in Chile, including its capacity to acquire fleas from native rodents. This aspect has critical implications for public health, potentially facilitating the spread of pathogens across various habitats where these rats are found. [ABSTRACT FROM AUTHOR]

Published

2024

41. Climate correlates of bluetongue incidence in southern Portugal.

Author

Mestre, Frederico, Pereira, Ana Luísa, and Araújo, Miguel B.

Subjects

*SPECIES distribution, *DISEASE outbreaks, *ECONOMIC impact, *ECOLOGICAL niche, *DISEASE vectors

Abstract

Model forecasts of the spatiotemporal occurrence dynamics of diseases are necessary and can help understand and thus manage future disease outbreaks. In our study, we used ecological niche modelling to assess the impact of climate on the vector suitability for bluetongue disease, a disease affecting livestock production with important economic consequences. Specifically, we investigated the relationship between the occurrence of bluetongue outbreaks and the environmental suitability of each of the four vector species studied. We found that the main vector for bluetongue disease, Culicoides imicola, a typically tropical and subtropical species, was a strong predictor for disease outbreak occurrence in a region of southern Portugal from 2004 to 2021. The results highlight the importance of understanding the climatic factors that might influence vector presence to help manage infectious disease impacts. When diseases impact economically relevant species, the impacts go beyond mortality and have important economic consequences. [ABSTRACT FROM AUTHOR]

Published

2024

42. Evaluación in vitro de la patogenicidad de los hongos aislados en la región de Urabá (Antioquia, Colombia) contra larvas de Aedes aegypti.

Author

Andrés Machado-Agudelo, Dairon, Alejandra García, María, Rueda-Páramo, Manuel E., and Lorena Cardona, Nadya

Subjects

AEDES aegypti, ARBOVIRUS diseases, BIOLOGICAL control of mosquitoes, DISEASE vectors, BODIES of water

Abstract

Copyright of Biomédica: Revista del Instituto Nacional de Salud is the property of Instituto Nacional de Salud of Colombia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. What happens when the insecticide does not kill? A review of sublethal toxicology and insecticide resistance in triatomines.

Author

Mougabure‐Cueto, Gastón, Fronza, Georgina, and Nattero, Julieta

Subjects

*RHODNIUS prolixus, *CHAGAS' disease, *CONENOSES, *PYRETHROIDS, *DISEASE vectors, *INSECTICIDES

Abstract

Chagas disease is considered one of the most important human parasitosis in the United States. This disease is mainly transmitted by insects of the subfamily Triatominae. The chemical vector control is the main tool for reducing the incidence of the disease. However, the presence of triatomines after pyrethroids spraying has been reported in some regions, as in the case of Triatoma infestans in Argentina and Bolivia. The presence of insects can be explained by the colonization from neighbouring areas, the reduction of insecticide dose to sublethal levels due to environmental factors, and/or by the evolution of insecticide resistance. In the last two scenarios, a proportion of the insects is not killed by insecticide and gives rise to residual populations. This article focuses on the toxicological processes associated with these scenarios in triatomines. Sublethal doses may have different effects on insect biology, that is, sublethal effects, which may contribute to the control. In addition, for insect disease vectors, sublethal doses could have negative effects on disease transmission. The study of sublethal effects in triatomines has focused primarily on the sequence of symptoms associated with nervous intoxication. However, the effects of sublethal doses on excretion, reproduction and morphology have also been studied. Rhodnius prolixus and T. infestans and pyrethroids insecticides were the triatomine species and insecticides, respectively, mainly studied. Insecticide resistance is an evolutionary phenomenon in which the insecticide acts as a selective force, concentrating on the insect population's pre‐existing traits that confer resistance. This leads to a reduction in the susceptibility to the insecticide, which was previously effective in controlling this species. The evolution of resistance in triatomines received little attention before the 2000s, but after the detection of the first focus of resistance associated with chemical control failures in T. infestans from Argentina in 2002, the study of resistance increased remarkably. A significant number of works have studied the geographical distribution, the resistance mechanisms, the biological modifications associated with resistance, the environmental influences and the genetic of T. infestans resistant to pyrethroid insecticides. Currently, studies of insecticide resistance are gradually being extended to other areas and other species. The aim of this article was to review the knowledge on both phenomena (sublethal effects and insecticide resistance) in triatomines. For a better understanding of this article, some concepts and processes related to insect‐insecticide interactions, individual and population toxicology and evolutionary biology are briefly reviewed. Finally, possible future lines of research in triatomine toxicology are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

44. Range size positively correlates with temperature and precipitation niche breadths but not with dietary niche breadth in triatomine insects, vectors of Chagas disease.

Author

Caron, Fernanda S., Rivadeneira, Daniel, Rabinovich, Jorge, Pie, Marcio R., and Morimoto, Juliano

Subjects

*BLOODSUCKING insects, *CONENOSES, *CHAGAS' disease, *ZOOFLAGELLATES, *DISEASE vectors, *TRYPANOSOMA cruzi

Abstract

Ecological theory predicts that species that can utilise a greater diversity of resources and, therefore, have wider niche breadths should also occupy larger geographic areas (the 'niche breadth-range size hypothesis'). Here, we tested this hypothesis for a blood-sucking group of insects of medical significance: the Triatominae (aka 'kissing bugs') (Hemiptera: Reduviidae). Given that niches can be viewed from different perspectives, we tested this hypothesis based on both dietary and climatic niches. We assembled the most complete dataset of triatomine feeding patterns to date by reviewing 143 studies from the literature up to 2021 and tested whether the niche breadth-range size hypothesis held for this group for both dietary and climatic components of the niche. Temperature and precipitation niche breadths were estimated from macro-environmental variables, while diet breadth was calculated based on literature data that used PCR and/or ELISA to identify different types of hosts as blood sources per triatomine species. Our results showed that temperature and precipitation niche breadths, but not dietary breadth, were positively correlated with range sizes, independent of evolutionary history among species. These findings support the predictions from the range size-niche breadth hypothesis concerning climate but not diet, in Triatominae. It also shows that support for the niche breadth-range size hypothesis is dependent upon the niche axis under consideration, which can explain the mixed support for this hypothesis in the ecological literature. Author summary: Many triatomine species carry the parasite Trypanosoma cruzi, a flagellate protozoan that causes Chagas disease in animals and humans, posing a long-standing public health threat to communities in the Global South. We investigated how the niche of triatominae species correlates with their geographic range. We compiled a comprehensive dataset on their feeding habits and environmental preferences and found that temperature and precipitation niche breadth correlated geographic range size but dietary breadths did not. These findings highlight the complexity of ecological relationships and contribute to a better understanding of how species interact with their environment, and can play a crucial role in determining the range of these vectors. Thus, this knowledge can aid in the development of more effective strategies for managing vector-borne diseases. [ABSTRACT FROM AUTHOR]

Published

2024

45. Loss-of-Function Variants in SUPT5H as Modifying Factors in Beta-Thalassemia.

Author

Harteveld, Cornelis L., Achour, Ahlem, Fairuz Mohd Hasan, Nik Fatma, Legebeke, Jelmer, Arkesteijn, Sandra J. G., Huurne, Jeanet ter, Verschuren, Maaike, Bhagwandien-Bisoen, Sharda, Schaap, Rianne, Vijfhuizen, Linda, Idrissi, Hakima el, Babbs, Christian, Higgs, Douglas R., Koopmann, Tamara T., Vrettou, Christina, Traeger-Synodinos, Joanne, and Baas, Frank

Subjects

*SICKLE cell anemia, *BETA-Thalassemia, *GENETIC variation, *DISEASE vectors, *MOLECULAR diagnosis

Abstract

It is well known that modifiers play a role in ameliorating or exacerbating disease phenotypes in patients and carriers of recessively inherited disorders such as sickle cell disease and thalassemia. Here, we give an overview of the literature concerning a recently described association in carriers of SUPT5H Loss-of-Function variants with a beta-thalassemia-like phenotype including the characteristic elevated levels of HbA2. That SUPT5H acts as modifier in beta-thalassemia carriers became evident from three reported cases in whom combined heterozygosity of SUPT5H and HBB gene variants was observed to resemble a mild beta-thalassemia intermedia phenotype. The different SUPT5H variants and hematologic parameters reported are collected and reviewed to provide insight into the possible effects on hematologic expression, as well as potential disease mechanisms in carriers and patients. [ABSTRACT FROM AUTHOR]

Published

2024

46. Drug Delivery Strategies for Age-Related Diseases.

Author

Yoshihara, Kenichi and Horiguchi, Michiko

Subjects

*DRUG delivery systems, *CONTROLLED release drugs, *DRUG carriers, *DISEASE vectors, *THERAPEUTICS

Abstract

Drug delivery systems (DDSs) enable the controlled release of drugs in the body. DDSs have attracted increasing attention for the treatment of various disorders, including cancer, inflammatory diseases, and age-related diseases. With recent advancements in our understanding of the molecular mechanisms of aging, new target molecules and drug delivery carriers for age-related diseases have been reported. In this review, we will summarize the recent research on DDSs for age-related diseases and identify DDS strategies in the treatment of age-related diseases. [ABSTRACT FROM AUTHOR]

Published

2024

47. Improved thermal stabilization of VSV-vector with enhanced vacuum drying in pullulan and trehalose-based films.

Author

Iwashkiw, Jeremy A., Mohamud, Abdulhamid O., Kazhdan, Natallia, Ameen, Aaisha, Beecher, Jody E., Filipe, Carlos D. M., and Lichty, Brian D.

Subjects

*VACCINE effectiveness, *VESICULAR stomatitis, *COMBINED vaccines, *VIRAL vaccines, *DISEASE vectors

Abstract

One major limitation of effective vaccine delivery is its dependency on a robust cold chain infrastructure. While Vesicular stomatitis virus (VSV) has been demonstrated to be an effective viral vaccine vector for diseases including Ebola, its −70 °C storage requirement is a significant limitation for accessing disadvantaged locations and populations. Previous work has shown thermal stabilization of viral vaccines with a combination of pullulan and trehalose (PT) dried films. To improve the thermal stability of VSV, we optimized PT formulation concentrations and components, as well as drying methodology with enhanced vacuum drying. When formulated in PT films, VSV can be stored for 32 weeks at 4 °C with less than 2 log PFU loss, at 25 °C with 2.5 log PFU loss, and at 37 °C with 3.1 log PFU loss. These results demonstrate a significant advancement in VSV thermal stabilization, decreasing the cold chain requirements for VSV vectored vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

48. Temperature Predicts the Population of Aceria cajani Chan. (Acari: Eriophyidae) and Efficacy of Insecticides and Acaricides in its Control on Pigeonpea [Cajanus cajan (L) Millsp.].

Author

Vasudha, Ambati, Umapathy, G., Vishnu Priya, R., Vijayalakshmi, D., Manoranjitham, S. K., and Balusubramani, V.

Subjects

*PIGEON pea, *MOSAIC diseases, *DISEASE vectors, *MOSAIC viruses, *ENTOMOPATHOGENIC fungi, *ACARICIDES

Abstract

Background: The pigeonpea eriophyid mite, Aceria cajani Chan., vector of sterility mosaic disease in pigeonpea, causes economic damage of up to 90% during the early stages of crop growth. The major element in deploying management practice is to know the population dynamics of the pest. Generally, the vectors of disease causing agents were managed with the synthetic chemical. So we have taken studies to know efficacy of insecticides and acaricides in its control on pigeonpea. Methods: The population dynamics of A. cajani Chan. was monitored in field plots from January 2021 to December 2021. For efficacy of insecticides and acaricides studies in control of A. cajani a completely randomized design was organized. Twelve treatments (insecticides/acaricides) were tested against A. cajani on pigeonpea [var. ICP 8863 (Shree Maruti]. Result: This study found that mite population reached a peak in the summer (March) and another peak in the post-monsoon period (October), whereas the lowest populations were recorded in winter (January). Correlation studies exhibited a significant positive correlation with both maximum and minimum temperature. The insecticide and acaricide trials on A. cajani found that all chemicals used were effective and entomopathogenic formulations were comparatively less effective. [ABSTRACT FROM AUTHOR]

Published

2024

49. The Relationship of Waste Sorting and Fly Density Levels in Temporary Shelter Places (TPS) In Madiun City.

Author

Vera, Voti, Karina Nur R., and Widiarini, Retno

Subjects

*POLLING places, *WASTE management, *DISEASE vectors, *CHI-squared test, *CONTAINERIZATION

Abstract

Fly density can be a parameter for the success of waste management, both from containerization activities to final waste disposal, which must be integrated by sorting, collecting and transporting waste management. Waste that is not sorted can cause problems, one of which is disease caused by vectors. In this research, researchers used quantitative research as an approach. The research method used is an analytical survey while the type of research is cross sectional. The total population is 36 polling stations with a sample size of 20 polling stations using the Chi-Square test. Research shows that the independent variable value of sorting is significant (p-value = 0.014), with the level of fly density in the Madiun City Temporary Shelter (TPS). There is a relationship between waste sorting and the level of fly density in the Madiun City Temporary Shelter (TPS). [ABSTRACT FROM AUTHOR]

Published

2024

50. A comparative Analysis of Algerian natural extracts as Solo and Synergistically against Culex pipiens (Diptera: Culicidae) Larvae.

Author

Menakh, Mouna, Boutellaa, Saber, Benabied, Khaoula, Zaouani, Raouya, and Abou-Mustapha, Mohamed

Subjects

*CULEX pipiens, *ESSENTIAL oils, *NATURAL products, *BENZOIC acid, *DISEASE vectors, *HONEYBEES

Abstract

This study assessed the larvicidal and emergence inhibitory effects of propolis from western honey bee (Apis mellifera L.), Mastic Tree (Pistacia lentiscus L.), and Bay Laurel (Laurus nobilis L.) extracts on common house mosquito Culex pipiens L. larvae, a significant public health threat as a vector for various diseases. Our analysis encompassed individual and combined evaluations of these natural products. Gas chromatography–mass spectrometry (GC-MS) analysis revealed distinctive chemical compositions in P. lentiscus and L. nobilis essential oils, featuring noteworthy compounds such as spathulenol, β-caryophyllene, linalool, and 1,8-cineole. HPLC analysis showed richness of phenolics in all extracts, including benzoic acid, quercetin, and catechin hydrate. Individual larvicidal assessments demonstrated L. nobilis essential oil as the most potent, with an LC50 of 31.94 ppm and an LT50 of 6.14 h. Followed by P. lentiscus essential oil (LC50 of 46.59 ppm, LT50 of 33.77 h), L. nobilis ethanolic extract (LC50 of 73.17 ppm, LT50 of 11.55 h), propolis (LC50 of 89.22 ppm, LT50 of 25.40 h), and P. lentiscus ethanolic extract (LC50 of 135.60 ppm, LT50 of 47.69 h). Remarkably, combinations of extracts from P. lentiscus and L. nobilis, particularly their essential oils, exhibited stronger larvicidal effects than individual extracts. Notably, specific volume ratios, such as 1:4, 2:3, and 2:2, showed consistent synergistic activity, as did combinations with ethanolic extracts and propolis. Additionally, the essential oils inhibited larval emergence, with synergistic effects observed in specific combinations. These results highlight the potential of these natural extracts, both alone and in combination, as effective and eco-friendly larvicidal agents against Cx. pipiens. [ABSTRACT FROM AUTHOR]

Published

2024