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1.
Rev. Soc. Bras. Med. Trop ; Rev. Soc. Bras. Med. Trop;52: e20180415, 2019. graf
Article in English | LILACS | ID: biblio-1041552

ABSTRACT

Abstract INTRODUCTION: Malaria and leishmaniases are transmitted by vectors during blood-feeding. Vector-infected animals develop antibodies against the vector's saliva. This study evaluated IgY antibody detection in the chicken eggs exposed to bites from Migonemyia migonei, Lutzomyia longipalpis and Anopheles aquasalis. METHODS: We used ELISA to quantify the antibody levels in the sera and exposed chicken eggs. RESULTS: High IgY levels were observed following immunization; furthermore, higher reactivity was observed in the eggs and species-specific immune response was observed post final immunization. CONCLUSIONS: Chicken eggs can be used as sentinels to surveil vector saliva antibodies.


Subject(s)
Animals , Psychodidae/immunology , Saliva/immunology , Immunoglobulins/analysis , Chickens/parasitology , Eggs/parasitology , Insect Vectors/immunology , Anopheles/immunology , Time Factors , Enzyme-Linked Immunosorbent Assay , Leishmaniasis/transmission , Malaria/transmission
2.
Mem. Inst. Oswaldo Cruz ; 106(3): 360-364, May 2011. graf, tab
Article in English | LILACS | ID: lil-589047

ABSTRACT

Three types of carbon dioxide-baited traps, i.e., the Centers for Disease Control Miniature Light Trap without light, the BioGents (BG) Sentinel Mosquito Trap (BG-Sentinel) and the Mosquito Magnet® Liberty Plus were compared with human landing collections in their efficiency in collecting Anopheles (Nyssorhynchus) aquasalis mosquitoes. Of 13,549 total mosquitoes collected, 1,019 (7.52 percent) were An. aquasalis. Large numbers of Culex spp were also collected, in particular with the (BG-Sentinel). The majority of An. aquasalis (83.8 percent) were collected by the human landing collection (HLC). None of the trap catches correlated with HLC in the number of An. aquasalis captured over time. The high efficiency of the HLC method indicates that this malaria vector was anthropophilic at this site, especially as carbon dioxide was insufficiently attractive as stand-alone bait. Traps using carbon dioxide in combination with human odorants may provide better results.


Subject(s)
Animals , Female , Anopheles , Carbon Dioxide , Mosquito Control/methods , Odorants , Mosquito Control/instrumentation , Suriname
3.
Rev. biol. trop ; Rev. biol. trop;58(2): 777-787, jun. 2010. mapas, tab
Article in Spanish | LILACS | ID: lil-638040

ABSTRACT

Larval seasonality of the mosquito Anopheles aquasalis (Diptera: Culicidae) and other insects associated to its habitat in Sucre, Venezuela. Anopheles aquasalis Curry is considered the main vector of human malaria in Northern Venezuela. A longitudinal study was carried out in the coastal areas of the Paria Peninsula, Sucre state. The larval habitats of A. aquasalis were classified as: 1- Brackish mangrove, and 2- Freshwater herbaceous swamp. Field surveys of mosquito larvae and aquatic insects were carried out in the same breeding sites over a one-year period, between January and December 1999. At each site, 30 samples of Anopheles larvae and aquatic insects were taken monthly. Simultaneously with mosquito larvae sampling, five selected variables of water were measured: conductivity, salinity, dissolved oxygen, temperature and pH. Seasonal and temporal variations of A. aquasalis larvae and aquatic insects were determined in the two larval habitats. For the entire study period, the abundance of larvae was higher in the mangrove. Correspondence analysis showed a strong relation between some chemical factors of water and larval abundance. The abundance of A. aquasalis larvae in both seasons, was positively correlated with water salinity, pH and conductivity, and negatively with dissolved oxygen in the dry season. The presence of larvae was positively correlated with the presence of Avicenia germinans. In the mangrove there was a positive association between larvae abundance and Scirtidae family abundance and a negative correlation between larvae abundance and monthly precipitation (Spearman), as well as a significant negative correlation between Gerridae abundance and monthly precipitation. In the herbaceous swamp, there were not significant associations between A. aquasalis larvae abundance and abundance of others aquatic insects associated to habitat. Rev. Biol. Trop. 58 (2): 777-787. Epub 2010 June 02.


Anopheles aquasalis es considerado como el principal vector de malaria humana en el norte de Venezuela. El estudio longitudinal se llevó a cabo en áreas costeras de la Península de Paria, estado Sucre. El hábitat de las larvas de A. aquasalis fue clasificado como: manglar salobre y pantano herbáceo. Muestreos para recolectar larvas de mosquitos e insectos asociados se realizaron mensualmente en ambos criaderos desde enero hasta diciembre de 1999 (30 muestras). Simultáneamente se midieron cinco variables seleccionadas del agua: conductividad, salinidad, oxígeno disuelto, temperatura y pH. En ambos criaderos de determinaron las variaciones estacionales y temporales de las larvas de A. aquasalis e insectos acuáticos. Para el período de estudio, la abundancia de larvas fue mayor en el manglar. El análisis de correspondencia mostró una fuerte relación entre algunos factores químicos del agua y la abundancia de las larvas. La abundancia de las larvas de A. aquasalis en ambas épocas, se correlacionó positivamente con la salinidad del agua, pH y conductividad, y negativamente con el oxígeno disuelto, en la estación seca. La presencia de larvas se correlacionó positivamente con la presencia de Avicennia germinans. En el manglar existió una asociación positiva entre la abundancia de larvas y la abundancia de la familia Scirtidae y una correlación negativa entre la abundancia de larvas y la precipitación mensual (Spearman), así como una correlación negativa significativa entre la abundancia de Gerridae y la precipitación mensual. En el pantano herbáceo, no había asociaciones significativas entre la abundancia de las larvas de A. aquasalis y la abundancia de otros insectos acuáticos asociados al hábitat.


Subject(s)
Animals , Anopheles/physiology , Coleoptera/physiology , Ecosystem , Hemiptera/physiology , Insect Vectors/physiology , Seasons , Anopheles/classification , Coleoptera/classification , Fresh Water/analysis , Hemiptera/classification , Insect Vectors/classification , Larva , Longitudinal Studies , Venezuela
4.
Acta amaz ; Acta amaz;39(2): 453-458, 2009. graf, mapas
Article in Portuguese | LILACS | ID: lil-522394

ABSTRACT

Apesar da sua localização perto de Bel¨¦m, Par¨¢, a Ilha de Cotijuba tem sido assolada por surtos de mal¨¢ria durante os ¨²ltimos anos, principalmente nos meses de abril a maio. A ilha faz parte de um arquip¨¦lago situado ¨¤s margens da ba¨ªa do Maraj¨®, a 29 km de Bel¨¦m, constituindo uma parte insular dessa cidade. Cotijuba possui uma ¨¢rea de cerca de 60 km² e uma costa com 20 km de praias, que corresponde a 66 por cento da ¨¢rea total da ilha. Por causa das repetidas epidemias de mal¨¢ria, nosso interesse voltou-se para conhecer as esp¨¦cies de anofelinos vetoras. Nos anos de 2002 a 2004 foram realizadas coletas peri¨®dicas de mosquitos adultos utilizando-se o m¨¦todo de captura manual com atrativo humano no peridomic¨ªlio. Foram realizadas seis coletas bimensais com duração de 6 horas com o registro de apenas duas esp¨¦cies em atividade atacando o homem, Anopheles (Nyssorhynchus) aquasalis e Anopheles (Anopheles) intermedius. Verificou-se que as condições clim¨¢ticas, o comportamento dos residentes e a falta de recursos para o efetivo lcontrole dos vetores da doença, favorecem a persist¨ºncia de mal¨¢ria na Ilha de Cotijuba.


The island of Cotijuba is located at 29km of Bel¨¦m, Par¨¢, Brazil. This island is of approximately 60 km2 and belongs to the Maraj¨® archipelago. Cotijuba has reported repeated outbreaks of malaria during past years, especially in the months of April and May. Due to these outbreaks our interest focused on knowing the anopheline vectors in the island. From 2002 to 2004, periodic mosquito collections were made using human bait at landing and manual capture of resting specimens in the indoors and in the peridomicile. Six bi-monthly collections of 6 hours duration revealed only two man-attracted species: Anopheles (Nyssorhynchus) aquasalis and Anopheles (Anopheles) intermedius. Among other factors, climatic conditions, resident¡äs behavior and lack of resources for control measures contributed to the persistence of malaria in the Island of Cotijuba.


Subject(s)
Malaria , Anopheles
5.
Acta amaz ; Acta amaz;39(2)2009.
Article in Portuguese | LILACS-Express | LILACS, VETINDEX | ID: biblio-1454994

ABSTRACT

The island of Cotijuba is located at 29km of Belém, Pará, Brazil. This island is of approximately 60 km2 and belongs to the Marajó archipelago. Cotijuba has reported repeated outbreaks of malaria during past years, especially in the months of April and May. Due to these outbreaks our interest focused on knowing the anopheline vectors in the island. From 2002 to 2004, periodic mosquito collections were made using human bait at landing and manual capture of resting specimens in the indoors and in the peridomicile. Six bi-monthly collections of 6 hours duration revealed only two man-attracted species: Anopheles (Nyssorhynchus) aquasalis and Anopheles (Anopheles) intermedius. Among other factors, climatic conditions, residents behavior and lack of resources for control measures contributed to the persistence of malaria in the Island of Cotijuba.


Apesar da sua localização perto de Belém, Pará, a Ilha de Cotijuba tem sido assolada por surtos de malária durante os últimos anos, principalmente nos meses de abril a maio. A ilha faz parte de um arquipélago situado às margens da baía do Marajó, a 29 km de Belém, constituindo uma parte insular dessa cidade. Cotijuba possui uma área de cerca de 60 km² e uma costa com 20 km de praias, que corresponde a 66% da área total da ilha. Por causa das repetidas epidemias de malária, nosso interesse voltou-se para conhecer as espécies de anofelinos vetoras. Nos anos de 2002 a 2004 foram realizadas coletas periódicas de mosquitos adultos utilizando-se o método de captura manual com atrativo humano no peridomicílio. Foram realizadas seis coletas bimensais com duração de 6 horas com o registro de apenas duas espécies em atividade atacando o homem, Anopheles (Nyssorhynchus) aquasalis e Anopheles (Anopheles) intermedius. Verificou-se que as condições climáticas, o comportamento dos residentes e a falta de recursos para o efetivo lcontrole dos vetores da doença, favorecem a persistência de malária na Ilha de Cotijuba.

6.
Int. j. morphol ; 26(3): 577-582, Sept. 2008.
Article in English | LILACS | ID: lil-556739

ABSTRACT

The midgut of adult female Anopheles aquasalis presents a narrow anterior or thoracic region and a distensible posterior or abdominal region constituted by the epithelium formed by a cell layer whose apical portion presents microvilli and the basal portion, a basal labyrinth. The thoracic region revealed heterogeneous cellular staining affinity mainly by the presence of acidic components. The ultrastructural aspect showed columnar cells with the presence of the vesicle, mitochondria, endoplasmic reticulum and secreting cells. The abdominal region of the midgut revealed an irregular epithelium whose cells presented a basophilic cytoplasm and acidophil granules. It was also found secreting and/or basal cells with narrow cytoplasm. The ultrastructural observation of this region demonstrated cells with evident nucleus, endoplasmic reticulum and mitochondria. Larger vesicles and small granules were found distributed throughout the cytoplasm. The basal lamina that supports the epithelium presented a generally irregular aspect and the muscle fibers have longitudinal and circular organization and were found separating the epithelium from the haemocel. This study will contribute to analyses on the vector mosquito-parasite interaction mechanism in this specimen.


La seccion media del intestino de la hembra de Anopheles aquasalis presenta una estrecha region anterior o toráxica y una region posterior o abdominal constituida por el epitelio formado por una camada de células cuya porcion apical presenta microvilosidades y la porcion basal presenta un laberinto basal. La region toráxica reveló afinidad de tintura celular principalmente para componentes acídicos. El aspecto ultra estructural mostró células columnares con la presencia de la vesícula, mitocondrias, retículo endoplasmático y células secretoras. La region abdominal del intestino medio reveló un epitelio irregular con células con citoplasma basófilo y granulos acidófilos. También se encontraron células secretoras y/o básales con citoplasma estrecho. La observacion ultra estructural de la region mostró células con núcleos, retículo endoplasmático y mitocondrias evidentes. Vesículas largas y granulos pequeños fueron encontrados distribuidos por todo el citoplasma. La lámina basal que apoya el epitelio presentó un aspecto irregular y las fibras musculares tienen organizacion longitudinal y circular y separan el epitelio del hemocele. Este estudio contribuirá al análisis del mecanismo de interaccion entre el mosquito y el parásito en este espécimen.


Subject(s)
Adult , Animals , Anopheles/anatomy & histology , Anopheles/growth & development , Anopheles/embryology , Anopheles/ultrastructure , Diptera/cytology , Diptera/ultrastructure , Intestines/anatomy & histology , Intestines/ultrastructure , Epithelial Cells/ultrastructure , Cytoplasm/ultrastructure , Insect Vectors/anatomy & histology , Insect Vectors/ultrastructure , Malaria/transmission , Microscopy, Electron, Transmission/methods
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