ABSTRACT
Acute Chagas disease (ACD) cases are reported sporadically in Peru. In this report we describe the clinical and epidemiological characteristics of eight new ACD cases detected by the surveillance system in the Amazon basin, between 2009 and 2016. The average age was 12,7 ±13.7 years, range between 1 to 44 years and 4/8 cases were men. One case was associated with acute diarrheal disease, another with Leptospirosis, and two with urinary tract infection. The global case fatality-rate was 12.5% ââ(1/8). Late detection is a frequent characteristic related with low diagnostic suspicion in patients with a history of fever. The TcI and TcIV lineage was identified as the etiological agent of Chagas disease. Eight new cases of ACDs are reported, of which seven were children.
Los casos de la enfermedad de Chagas aguda (ECA) se reportan en forma esporádica en el Perú. En este artículo se describe las características clínicas y epidemiológicas de ocho nuevos casos de ECA detectados por el sistema de vigilancia en la cuenca amazónica, entre 2009 y 2016. La media de la edad fue 12,7 ± 13,7 años, rango de 1 a 44 años y 4/8 casos fueron varones. Un caso se asoció a enfermedad diarreica aguda, otro a leptospirosis y dos a infección del tracto urinario. La tasa de letalidad global fue 12,5% (1/8). La detección tardía es una característica frecuente relacionada a una escasa sospecha diagnóstica en pacientes con historial de fiebre. Se identificó el linaje TcI y TcIV del agente etiológico de la enfermedad de Chagas. Se reporta ocho nuevos casos de ECA, de los cuales siete fueron menores de edad.
Subject(s)
Chagas Disease , Leptospirosis , Trypanosoma cruzi , Adolescent , Adult , Chagas Disease/diagnosis , Chagas Disease/epidemiology , Child , Child, Preschool , Fever , Humans , Infant , Male , Peru/epidemiology , Young AdultABSTRACT
RESUMEN Los casos de la enfermedad de Chagas aguda (ECA) se reportan en forma esporádica en el Perú. En este artículo se describe las características clínicas y epidemiológicas de ocho nuevos casos de ECA detectados por el sistema de vigilancia en la cuenca amazónica, entre 2009 y 2016. La media de la edad fue 12,7 ± 13,7 años, rango de 1 a 44 años y 4/8 casos fueron varones. Un caso se asoció a enfermedad diarreica aguda, otro a leptospirosis y dos a infección del tracto urinario. La tasa de letalidad global fue 12,5% (1/8). La detección tardía es una característica frecuente relacionada a una escasa sospecha diagnóstica en pacientes con historial de fiebre. Se identificó el linaje TcI y TcIV del agente etiológico de la enfermedad de Chagas. Se reporta ocho nuevos casos de ECA, de los cuales siete fueron menores de edad.
ABSTRACT Acute Chagas disease (ACD) cases are reported sporadically in Peru. In this report we describe the clinical and epidemiological characteristics of eight new ACD cases detected by the surveillance system in the Amazon basin, between 2009 and 2016. The average age was 12,7 ±13.7 years, range between 1 to 44 years and 4/8 cases were men. One case was associated with acute diarrheal disease, another with Leptospirosis, and two with urinary tract infection. The global case fatality-rate was 12.5% (1/8). Late detection is a frequent characteristic related with low diagnostic suspicion in patients with a history of fever. The TcI and TcIV lineage was identified as the etiological agent of Chagas disease. Eight new cases of ACDs are reported, of which seven were children.
Subject(s)
Humans , Male , Female , Chagas Disease , Vector Borne Diseases , Leptospirosis , Peru , Case Reports , Mortality , Neglected Diseases , Fever , CoinfectionABSTRACT
RESUMEN Los casos de la enfermedad de Chagas aguda (ECA) se reportan en forma esporádica en el Perú. En este artículo se describe las características clínicas y epidemiológicas de ocho nuevos casos de ECA detectados por el sistema de vigilancia en la cuenca amazónica, entre 2009 y 2016. La media de la edad fue 12,7 ± 13,7 años, rango de 1 a 44 años y 4/8 casos fueron varones. Un caso se asoció a enfermedad diarreica aguda, otro a leptospirosis y dos a infección del tracto urinario. La tasa de letalidad global fue 12,5% (1/8). La detección tardía es una característica frecuente relacionada a una escasa sospecha diagnóstica en pacientes con historial de fiebre. Se identificó el linaje TcI y TcIV del agente etiológico de la enfermedad de Chagas. Se reporta ocho nuevos casos de ECA, de los cuales siete fueron menores de edad.
ABSTRACT Acute Chagas disease (ACD) cases are reported sporadically in Peru. In this report we describe the clinical and epidemiological characteristics of eight new ACD cases detected by the surveillance system in the Amazon basin, between 2009 and 2016. The average age was 12,7 ±13.7 years, range between 1 to 44 years and 4/8 cases were men. One case was associated with acute diarrheal disease, another with Leptospirosis, and two with urinary tract infection. The global case fatality-rate was 12.5% (1/8). Late detection is a frequent characteristic related with low diagnostic suspicion in patients with a history of fever. The TcI and TcIV lineage was identified as the etiological agent of Chagas disease. Eight new cases of ACDs are reported, of which seven were children.
Subject(s)
Humans , Male , Female , Peru , Chagas Disease , Fever , Case Reports , Neglected Diseases , Coinfection , Vector Borne Diseases , LeptospirosisABSTRACT
Anthropogenic environmental alterations such as urbanization can threaten native populations as well as create novel environments that allow human pests and pathogens to thrive. As the number and size of urban environments increase globally, it is more important than ever to understand the dispersal dynamics of hosts, vectors and pathogens of zoonotic disease systems. For example, a protozoan parasite and the causative agent of Chagas disease in humans, Trypanosoma cruzi, recently colonized and spread through the city of Arequipa, Peru. We used population genomic and phylogenomic tools to analyze whole genomes of 123 T. cruzi isolates derived from vectors and non-human mammals throughout Arequipa to determine patterns of T. cruzi dispersal. The data show significant population genetic structure within city blocks-parasites in the same block tend to be very closely related-but no population structure among blocks within districts-parasites in neighboring blocks are no more closely related to one another than to parasites in distant districts. These data suggest that T. cruzi dispersal within a block occurs regularly and that occasional long-range dispersal events allow the establishment of new T. cruzi populations in distant blocks. Movement of domestic animals may be the primary mechanism of inter-block and inter-district T. cruzi dispersal.
Subject(s)
Animals, Domestic/parasitology , Chagas Disease/epidemiology , Chagas Disease/parasitology , Disease Transmission, Infectious , Genotype , Phylogeny , Trypanosoma cruzi/isolation & purification , Animals , Chagas Disease/transmission , Disease Vectors , Humans , Molecular Epidemiology , Peru/epidemiology , Trypanosoma cruzi/classification , Trypanosoma cruzi/geneticsABSTRACT
Changing environmental conditions, including those caused by human activities, reshape biological communities through both loss of native species and establishment of non-native species in the altered habitats. Dynamic interactions with the abiotic environment impact both immigration and initial establishment of non-native species into these altered habitats. The repeated emergence of disease systems in urban areas worldwide highlights the importance of understanding how dynamic migratory processes affect the current and future distribution and abundance of pathogens in urban environments. In this study, we examine the pattern of invasion of Trypanosoma cruzi-the causative agent of human Chagas disease-in the city of Arequipa, Peru. Phylogenetic analyses of 136 T. cruzi isolates from Arequipa and other South American locations suggest that only one T. cruzi lineage established a population in Arequipa as all T. cruzi isolated from vectors in Arequipa form a recent monophyletic group within the broader South American phylogeny. We discuss several hypotheses that may explain the limited number of established T. cruzi lineages despite multiple introductions of the parasite.
Subject(s)
Chagas Disease/parasitology , Emigration and Immigration , Trypanosoma cruzi/physiology , Chagas Disease/epidemiology , Geography , Humans , Peru/epidemiology , Phylogeny , Polymorphism, Single Nucleotide/geneticsABSTRACT
Faeces-mediated transmission of Trypanosoma cruzi (the aetiological agent of Chagas disease) by triatomine insects is extremely inefficient. Still, the parasite emerges frequently, and has infected millions of people and domestic animals. We synthesize here the results of field and laboratory studies of T. cruzi transmission conducted in and around Arequipa, Peru. We document the repeated occurrence of large colonies of triatomine bugs (more than 1000) with very high infection prevalence (more than 85%). By inoculating guinea pigs, an important reservoir of T. cruzi in Peru, and feeding triatomine bugs on them weekly, we demonstrate that, while most animals quickly control parasitaemia, a subset of animals remains highly infectious to vectors for many months. However, we argue that the presence of these persistently infectious hosts is insufficient to explain the observed prevalence of T. cruzi in vector colonies. We posit that seasonal rains, leading to a fluctuation in the price of guinea pig food (alfalfa), leading to annual guinea pig roasts, leading to a concentration of vectors on a small subpopulation of animals maintained for reproduction, can propel T. cruzi through vector colonies and create a considerable force of infection for a pathogen whose transmission might otherwise fizzle out.
Subject(s)
Chagas Disease/veterinary , Guinea Pigs , Insect Vectors/parasitology , Rodent Diseases/transmission , Triatoma/parasitology , Trypanosoma cruzi/physiology , Animals , Chagas Disease/epidemiology , Chagas Disease/parasitology , Chagas Disease/transmission , Cross-Sectional Studies , Disease Reservoirs/parasitology , Disease Reservoirs/veterinary , Insect Vectors/physiology , Parasitemia/epidemiology , Parasitemia/parasitology , Parasitemia/transmission , Parasitemia/veterinary , Peru/epidemiology , Population Dynamics , Prevalence , Rodent Diseases/epidemiology , Rodent Diseases/parasitology , Triatoma/physiologyABSTRACT
BACKGROUND: Chagas disease, a vector-borne disease transmitted by triatomine bugs and caused by the parasite Trypanosoma cruzi, affects millions of people in the Americas. In Arequipa, Peru, indoor residual insecticide spraying campaigns are routinely conducted to eliminate Triatoma infestans, the only vector in this area. Following insecticide spraying, there is risk of vector return and reinitiation of parasite transmission. Dogs are important reservoirs of T. cruzi and may play a role in reinitiating transmission in previously sprayed areas. Dogs may also serve as indicators of reemerging transmission. METHODS: We conducted a cross-sectional serological screening to detect T. cruzi antibodies in dogs, in conjunction with an entomological vector collection survey at the household level, in a disease endemic area that had been treated with insecticide 13 years prior. Spatial clustering of infected animals and vectors was assessed using Ripley's K statistic, and the odds of being seropositive for dogs proximate to infected colonies was estimated with multivariate logistic regression. RESULTS: There were 106 triatomine-infested houses (41.1%), and 45 houses infested with T. cruzi-infected triatomine insects (17.4%). Canine seroprevalence in the area was 12.3% (n=154); all seropositive dogs were 9 months old or older. We observed clustering of vectors carrying the parasite, but no clustering of seropositive dogs. The age- and sex-adjusted odds ratio between seropositivity to T. cruzi and proximity to an infected triatomine (≤50m) was 5.67 (95% CI: 1.12-28.74; p=0.036). CONCLUSIONS: Targeted control of reemerging transmission can be achieved by improved understanding of T. cruzi in canine populations. Our results suggest that dogs may be useful sentinels to detect re-initiation of transmission following insecticide treatment. Integration of canine T. cruzi blood sampling into existing interventions for zoonotic disease control (e.g., rabies vaccination programs) can be an effective method of increasing surveillance and improving understanding of disease distribution.
Subject(s)
Chagas Disease/veterinary , Dog Diseases/epidemiology , Endemic Diseases/veterinary , Insect Vectors/parasitology , Sentinel Surveillance/veterinary , Triatoma/parasitology , Trypanosoma cruzi/isolation & purification , Animals , Antibodies, Protozoan/blood , Chagas Disease/epidemiology , Chagas Disease/parasitology , Chagas Disease/transmission , Cross-Sectional Studies , Dog Diseases/parasitology , Dog Diseases/transmission , Dogs , Female , Male , Peru/epidemiology , Prevalence , Seroepidemiologic Studies , Spatial AnalysisABSTRACT
BACKGROUND: Vector-borne transmission of Trypanosoma cruzi is seen exclusively in the Americas where an estimated 8 million people are infected with the parasite. Significant research in southern Peru has been conducted to understand T. cruzi infection and vector control, however, much less is known about the burden of infection and epidemiology in northern Peru. METHODOLOGY: A cross-sectional study was conducted to estimate the seroprevalence of T. cruzi infection in humans (n=611) and domestic animals [dogs (n=106) and guinea pigs (n=206)] in communities of Cutervo Province, Peru. Sampling and diagnostic strategies differed according to species. An entomological household study (n=208) was conducted to identify the triatomine burden and species composition, as well as the prevalence of T. cruzi in vectors. Electrocardiograms (EKG) were performed on a subset of participants (n=90 T. cruzi infected participants and 170 age and sex-matched controls). The seroprevalence of T. cruzi among humans, dogs, and guinea pigs was 14.9% (95% CI: 12.2-18.0%), 19.8% (95% CI: 12.7-28.7%) and 3.3% (95% CI: 1.4-6.9%) respectively. In one community, the prevalence of T. cruzi infection was 17.2% (95% CI: 9.6-24.7%) among participants < 15 years, suggesting recent transmission. Increasing age, positive triatomines in a participant's house, and ownership of a T. cruzi positive guinea pig were independent correlates of T. cruzi infection. Only one species of triatomine was found, Panstrongylus lignarius, formerly P. herreri. Approximately forty percent (39.9%, 95% CI: 33.2-46.9%) of surveyed households were infested with this vector and 14.9% (95% CI: 10.4-20.5%) had at least one triatomine positive for T. cruzi. The cardiac abnormality of right bundle branch block was rare, but only identified in seropositive individuals. CONCLUSIONS: Our research documents a substantial prevalence of T. cruzi infection in Cutervo and highlights a need for greater attention and vector control efforts in northern Peru.
Subject(s)
Antibodies, Protozoan/blood , Chagas Disease/epidemiology , Chagas Disease/transmission , Trypanosoma cruzi/immunology , Adolescent , Adult , Animals , Animals, Domestic , Chagas Disease/parasitology , Child , Child, Preschool , Cross-Sectional Studies , Dogs , Electrocardiography , Female , Guinea Pigs , Humans , Insect Vectors/parasitology , Male , Middle Aged , Panstrongylus/parasitology , Peru/epidemiology , Rural Population , Seroepidemiologic Studies , Trypanosoma cruzi/isolation & purification , Young AdultABSTRACT
Chagas disease is a vector-borne disease endemic in Latin America. Triatoma infestans, a common vector of this disease, has recently expanded its range into rapidly developing cities of Latin America. We aim to identify the environmental features that affect the colonization and dispersal of T. infestans in an urban environment. We amplified 13 commonly used microsatellites from 180 T. infestans samples collected from a sampled transect in the city of Arequipa, Peru, in 2007 and 2011. We assessed the clustering of subpopulations and the effect of distance, sampling year, and city block location on genetic distance among pairs of insects. Despite evidence of genetic similarity, the majority of city blocks are characterized by one dominant insect genotype, suggesting the existence of barriers to dispersal. Our analyses show that streets represent an important barrier to the colonization and dispersion of T. infestans in Arequipa. The genetic data describe a T. infestans infestation history characterized by persistent local dispersal and occasional long-distance migration events that partially parallels the history of urban development.
Subject(s)
Chagas Disease/parasitology , Insect Vectors/classification , Neglected Diseases/parasitology , Triatoma/classification , Trypanosoma , Animals , Chagas Disease/epidemiology , Humans , Insect Vectors/genetics , Insect Vectors/parasitology , Microsatellite Repeats/genetics , Neglected Diseases/epidemiology , Peru/epidemiology , Triatoma/genetics , Triatoma/parasitologyABSTRACT
Modern cities represent one of the fastest growing ecosystems on the planet. Urbanization occurs in stages; each stage characterized by a distinct habitat that may be more or less susceptible to the establishment of disease vector populations and the transmission of vector-borne pathogens. We performed longitudinal entomological and epidemiological surveys in households along a 1900 × 125 m transect of Arequipa, Peru, a major city of nearly one million inhabitants, in which the transmission of Trypanosoma cruzi, the aetiological agent of Chagas disease, by the insect vector Triatoma infestans, is an ongoing problem. The transect spans a cline of urban development from established communities to land invasions. We find that the vector is tracking the development of the city, and the parasite, in turn, is tracking the dispersal of the vector. New urbanizations are free of vector infestation for decades. T. cruzi transmission is very recent and concentrated in more established communities. The increase in land tenure security during the course of urbanization, if not accompanied by reasonable and enforceable zoning codes, initiates an influx of construction materials, people and animals that creates fertile conditions for epidemics of some vector-borne diseases.
Subject(s)
Chagas Disease/epidemiology , Chagas Disease/transmission , Insect Vectors , Socioeconomic Factors , Animals , Disease Reservoirs , Humans , Insect Vectors/parasitology , Longitudinal Studies , Peru/epidemiology , Pets , Triatoma/parasitology , Trypanosoma cruzi , UrbanizationABSTRACT
The increasing rate of biological invasions resulting from human transport or human-mediated changes to the environment has had devastating ecological and public health consequences. The kissing bug, Triatoma infestans, has dispersed through the Peruvian city of Arequipa. The biological invasion of this insect has resulted in a public health crisis, putting thousands of residents of this city at risk of infection by Trypanosoma cruzi and subsequent development of Chagas disease. Here, we show that populations of Tria. infestans in geographically distinct districts within and around this urban centre share a common recent evolutionary history although current gene flow is restricted even between proximal sites. The population structure among the Tria. infestans in different districts is not correlated with the geographical distance between districts. These data suggest that migration among the districts is mediated by factors beyond the short-range migratory capabilities of Tria. infestans and that human movement has played a significant role in the structuring of the Tria. infestans population in the region. Rapid urbanization across southern South America will continue to create suitable environments for Tria. infestans, and knowledge of its urban dispersal patterns may play a fundamental role in mitigating human disease risk.
Subject(s)
Gene Flow , Genetics, Population , Insect Vectors/genetics , Triatoma/genetics , Animal Distribution , Animals , Bayes Theorem , Chagas Disease/transmission , Cluster Analysis , Emigration and Immigration , Genetic Variation , Geography , Humans , Microsatellite Repeats , Models, Genetic , Peru , Principal Component Analysis , UrbanizationABSTRACT
With increasing urbanization vector-borne diseases are quickly developing in cities, and urban control strategies are needed. If streets are shown to be barriers to disease vectors, city blocks could be used as a convenient and relevant spatial unit of study and control. Unfortunately, existing spatial analysis tools do not allow for assessment of the impact of an urban grid on the presence of disease agents. Here, we first propose a method to test for the significance of the impact of streets on vector infestation based on a decomposition of Moran's spatial autocorrelation index; and second, develop a Gaussian Field Latent Class model to finely describe the effect of streets while controlling for cofactors and imperfect detection of vectors. We apply these methods to cross-sectional data of infestation by the Chagas disease vector Triatoma infestans in the city of Arequipa, Peru. Our Moran's decomposition test reveals that the distribution of T. infestans in this urban environment is significantly constrained by streets (p<0.05). With the Gaussian Field Latent Class model we confirm that streets provide a barrier against infestation and further show that greater than 90% of the spatial component of the probability of vector presence is explained by the correlation among houses within city blocks. The city block is thus likely to be an appropriate spatial unit to describe and control T. infestans in an urban context. Characteristics of the urban grid can influence the spatial dynamics of vector borne disease and should be considered when designing public health policies.
Subject(s)
Disease Vectors , Urban Health , Animals , Chagas Disease/transmission , Humans , PeruABSTRACT
We used genus/species specific PCRs to determine the temporal persistence of host DNA in Triatoma infestans experimentally fed on blood from six common vertebrate species: humans, domestic dogs, guinea pigs, chickens, mice, and pigs. Twenty third or fourth instar nymphs per animal group were allowed to feed to engorgement, followed by fasting-maintenance in the insectary. At 7, 14, 21, or 28 days post-feeding, the midgut contents from five triatomines per group were tested with the respective PCR assay. DNA from all vertebrate species was detected in at least four of five study nymphs at seven and 14 days post-feeding. DNA of humans, domestic dogs, guinea pigs, pigs, and chickens were more successfully detected (80-100%) through day 21, and less successfully (20-100%) at day 28. Findings demonstrate that species-specific PCRs can consistently identify feeding sources of T. infestans within two weeks, a biologically relevant time interval.
Subject(s)
Blood , DNA/analysis , Gastrointestinal Tract , Insect Vectors/physiology , Triatoma/physiology , Animals , Chickens , DNA/classification , Dogs , Feeding Behavior/physiology , Guinea Pigs , Humans , Mice , Nymph , Polymerase Chain Reaction , Swine , Urban PopulationABSTRACT
We used genus/species specific PCRs to determine the temporal persistence of host DNA in Triatoma infestans experimentally fed on blood from six common vertebrate species: humans, domestic dogs, guinea pigs, chickens, mice, and pigs. Twenty third or fourth instar nymphs per animal group were allowed to feed to engorgement, followed by fasting-maintenance in the insectary. At 7, 14, 21, or 28 days post-feeding, the midgut contents from five triatomines per group were tested with the respective PCR assay. DNA from all vertebrate species was detected in at least four of five study nymphs at seven and 14 days post-feeding. DNA of humans, domestic dogs, guinea pigs, pigs, and chickens were more successfully detected (80-100%) through day 21, and less successfully (20-100%) at day 28. Findings demonstrate that species-specific PCRs can consistently identify feeding sources of T. infestans within two weeks, a biologically relevant time interval.
Se utilizó pruebas PCR género o especie específicas para determinar la persistencia temporal de ADN del hospedero en el contenido intestinal de Triatoma infestans que fueron alimentados experimentalmente con sangre de seis vertebrados muy frecuentemente asociados a enfermedad de Chagas: humano, perro, cobayo, pollo, ratón, y cerdo. Se emplearon 20 ninfas de tercer y cuarto estadio por cada especie de hospedero. Fueron alimentados a saciedad y mantenidas en el insectario sin alimentación posterior. Se obtuvo el contenido intestinal de cinco triatominos por cada grupo a los 7, 14, 21 y 28 días post - alimentación, que fueron evaluados con los respectivos PCRs específicos. El ADN de todos los vertebrados fue detectado en al menos 4 de 5 ninfas evaluadas a los 7 y 14 días post - alimentación. El ADN de humano, perro, cobayo, cerdo y pollo fue detectado exitosamente (80-100%) hasta el día 21 y con menos éxito (20-100%) en el día 28. Estos resultados demuestran que PCRs específicos para cada especie de hospedero pueden identificar consistentemente la fuente de alimentación de T. infestans dentro de las dos semanas post - alimentación, siendo un intervalo de tiempo biológicamente relevante.
Subject(s)
Animals , Dogs , Guinea Pigs , Humans , Mice , Blood , DNA , Gastrointestinal Tract , Insect Vectors/physiology , Triatoma/physiology , Chickens , DNA , Feeding Behavior/physiology , Nymph , Polymerase Chain Reaction , Swine , Urban PopulationABSTRACT
BACKGROUND: Chagas disease is endemic in the rural areas of southern Peru and a growing urban problem in the regional capital of Arequipa, population â¼860,000. It is unclear how to implement cost-effective screening programs across a large urban and periurban environment. METHODS: We compared four alternative screening strategies in 18 periurban communities, testing individuals in houses with 1) infected vectors; 2) high vector densities; 3) low vector densities; and 4) no vectors. Vector data were obtained from routine Ministry of Health insecticide application campaigns. We performed ring case detection (radius of 15 m) around seropositive individuals, and collected data on costs of implementation for each strategy. RESULTS: Infection was detected in 21 of 923 (2.28%) participants. Cases had lived more time on average in rural places than non-cases (7.20 years versus 3.31 years, respectively). Significant risk factors on univariate logistic regression for infection were age (OR 1.02; pâ=â0.041), time lived in a rural location (OR 1.04; pâ=â0.022), and time lived in an infested area (OR 1.04; pâ=â0.008). No multivariate model with these variables fit the data better than a simple model including only the time lived in an area with triatomine bugs. There was no significant difference in prevalence across the screening strategies; however a self-assessment of disease risk may have biased participation, inflating prevalence among residents of houses where no infestation was detected. Testing houses with infected-vectors was least expensive. Ring case detection yielded four secondary cases in only one community, possibly due to vector-borne transmission in this community, apparently absent in the others. CONCLUSIONS: Targeted screening for urban Chagas disease is promising in areas with ongoing vector-borne transmission; however, these pockets of epidemic transmission remain difficult to detect a priori. The flexibility to adapt to the epidemiology that emerges during screening is key to an efficient case detection intervention. In heterogeneous urban environments, self-assessments of risk and simple residence history questionnaires may be useful to identify those at highest risk for Chagas disease to guide diagnostic efforts.
Subject(s)
Chagas Disease/diagnosis , Chagas Disease/epidemiology , Mass Screening/methods , Adolescent , Adult , Aged , Aged, 80 and over , Child , Child, Preschool , Cost-Benefit Analysis , Cross-Sectional Studies , Female , Humans , Infant , Male , Mass Screening/economics , Middle Aged , Peru/epidemiology , Prevalence , Risk Factors , Self-Examination/methods , Urban Population , Young AdultABSTRACT
BACKGROUND: The history of Chagas disease control in Peru and many other nations is marked by scattered and poorly documented vector control campaigns. The complexities of human migration and sporadic control campaigns complicate evaluation of the burden of Chagas disease and dynamics of Trypanosoma cruzi transmission. METHODOLOGY/PRINCIPAL FINDINGS: We conducted a cross-sectional serological and entomological study to evaluate temporal and spatial patterns of T. cruzi transmission in a peri-rural region of La Joya, Peru. We use a multivariate catalytic model and Bayesian methods to estimate incidence of infection over time and thereby elucidate the complex history of transmission in the area. Of 1,333 study participants, 101 (7.6%; 95% CI: 6.2-9.0%) were confirmed T. cruzi seropositive. Spatial clustering of parasitic infection was found in vector insects, but not in human cases. Expanded catalytic models suggest that transmission was interrupted in the study area in 1996 (95% credible interval: 1991-2000), with a resultant decline in the average annual incidence of infection from 0.9% (95% credible interval: 0.6-1.3%) to 0.1% (95% credible interval: 0.005-0.3%). Through a search of archival newspaper reports, we uncovered documentation of a 1995 vector control campaign, and thereby independently validated the model estimates. CONCLUSIONS/SIGNIFICANCE: High levels of T. cruzi transmission had been ongoing in peri-rural La Joya prior to interruption of parasite transmission through a little-documented vector control campaign in 1995. Despite the efficacy of the 1995 control campaign, T. cruzi was rapidly reemerging in vector populations in La Joya, emphasizing the need for continuing surveillance and control at the rural-urban interface.
Subject(s)
Chagas Disease/epidemiology , Chagas Disease/transmission , Communicable Disease Control/history , Communicable Disease Control/methods , Adolescent , Adult , Antibodies, Protozoan/blood , Chagas Disease/drug therapy , Child , Cross-Sectional Studies , Female , History, 20th Century , History, 21st Century , Humans , Insect Control/history , Male , Middle Aged , Peru/epidemiology , Recurrence , Rural Population , Seroepidemiologic Studies , Time Factors , Topography, Medical , Trypanosoma cruzi/immunology , Young AdultABSTRACT
Objetivos: Determinar el efecto de volteo (knockdown) y mortalidad en la medición de la eficacia residual del insecticida deltametrina 5 por ciento SC usado en el control vectorial de la enfermedad de Chagas sobre tres tipos de substratos (sillar, ladrillo y concreto) a dosis de 25 mg/m2. Materiales y métodos: Se aplicó la deltametrina en casas de diferente material en unazona endémica de Arequipa, Perú, luego fueron expuestas por 72 horas entre 87 a 120 ninfas V de Triatoma infestans enlas paredes tratadas, posteriormente las ninfas fueron transferidas a recipientes limpios para determinar el knockdown,la mortalidad a 15 días y la recuperación. Este experimento fue realizado a las 24 horas, 30, 60, 90 y 120 días posttratamiento. Resultados: La mortalidad de la deltametrina se fue reduciendo de 95% en las 24 primeras horas a 34 por ciento en el cuarto mes posterior a la exposición, independientemente del tipo de substrato, a un ritmo de 14,5 por ciento mensual (p menor que 0,001;r 2=0,79), el knockdown se mantuvo por encima de 75 por ciento al cuarto mes y la recuperación fue aumentando con el tiempo (p menor que 0,001; r2=0,77). Según substrato, se evidencia una persistencia de la mortalidad mayor que 50 por ciento hasta los 60 días para sillar, y 90 días para el ladrillo y concreto. Conclusiones: Se demostró una baja efectividad de deltametrina 5 por ciento SC a cuatro meses después del tratamiento sobre diferentes superficie (sillar, ladrillo y concreto). Es necesario tener en cuenta estos resultados para calcular los tiempos de aplicación de este insecticida en los programas de control vectorial.
Objectives: To determine knockdown and mortality in the measurement of the residual efficacy of deltamethrinformulated insecticide 5 percentage SC used in Chagas disease vector control on three types of substrates (sillar [white local volcanic rock], brick and concrete) to doses of 25mg/m2. Material and methods: We applied the deltamethrin in house with different construction material in an endemic zone of Arequipa, Peru, 87 to 120 third-stage nymphs V of Triatoma infestans was exposed by 72 hours to the treated surfaces, the nymphs were transferred to clean containers to determine mortality to 15 days, as well as knockdown and recovery. This experiment was carried out at 24 hours, 30, 60, 90 and120 days post-treatment. Results: The mortality of the deltamethrin was reduced from 95 percentage in the fist 24 hours to 34 percentage in the fourth month after exposure, regardless of the type of substrate, to a monthly rate of 14,5 percentage (p minor than 0,001; r2=0,79), the knockdown was maintained above 75 percentage in the fourth month recovery was increased over time (p minor than 0,001; r2=0,77). According substrate, we found a persistent mortality mayor than 50 porcentage to 60 days for sillar, and 90 days for the brick and concrete.Conclusions: We showed the low effectiveness of deltamethrin 5% SC to four months after the treatment on differentsubstrates (sillar, brick and concrete). It is necessary to take into account these results to calculate the time of applicationof this pesticide on vector control programmes.
Subject(s)
Vector Control of Diseases , Efficacy , Insecticides , Triatoma , Longitudinal Studies , PeruABSTRACT
Objetivo: determinar la seroprevalencia de infección por T. cruzi en pobladores mayores de 15 años del valle de Vítor, describiendo características generales y presencia de factores asociados a la infección. Material y Métodos: se seleccionaron aleatoriamente a 499 personas mayores de 15 años de edad, mediante encuesta se obtuvo la respectiva información epidemiológica. El diagnóstico serológico de la enfermedad se realizó mediante ELISA e IFI. Resultados: la seroprevalencia fue de 10,22%. En mujeres 10,35% y varones 10,04%. La mediana de edad del paciente chagásico fue de 42±17,86 años el tiempo de residencia fue de 34±15,95 años. El 50,98% es natural del valle de Vítor. Según la ocupación de la población general, agricultor 41,18%, ama de casa 31,37%. El 50,98% tiene instrucción secundaria. El único factor asociado a la infección fue el material rústico de las vivienda. Conclusion: el valle de Vítor es zona chagásica endémica. La infección afecta tanto a hombres como a mujeres. El poblador infectado es natural del valle de Vítor, se dedica a la agricultura y tiene secundaria como grado de instrucción. El material rústico de las viviendas se asocia a la infección por T.cruzi al favorecer la presencia del vector.
Objective: determine the seroprevalence of infection by T. cruzi in the population above age 15 in the valley of Vítor, describing general characteristics and the presence of associated factors. Materials and Methods: 499 people above age 15 were randomly selected; epidemiological information was obtained through a survey. The diagnosis of the disease was made by ELISA and IIF. Results: the seroprevalence for Chagas reactivity was 10,2%, 10,35% in women and 10,0% in men. The median of age of the "typical" Chagas disease patient was 42±17,9, his/her time of residence in Vítor was 34±15,9 years; 51,0% had been born in the valley of Vítor. Agricultural workers made up 41,2%, of the general population, and 51,0% have a high school education. Rustic housing materials were associated with the infection. Conclusions: the valley of Vítor is an endemic area for Chagas disease. The infection equally affects men and women. The "typical" infected patient is native to the valley of Vítor, works in agriculture and has secondary level education. Rustic building materials is associated to the infection by T.cruzi because it favors the presence of the vector.
ABSTRACT
En los últimos años ha existido una alta infestación por T. infestans en el valle de Vítor, sur del Perú; lo que ameritó un estudio de infección humana en población joven (escolares) y sus aspectos epidemiológicos. De un total de 886 escolares de 14 centros educativos de inicial a secundaria del valle de Vítor, se eligió aleatoriamente a 282. Se obtuvo una muestra de sangre venosa y datos epidemiológicos de la enfermedad de cada uno de ellos. Cada muestra se procesó mediante IFI y ELISA para detectar anticuerpos contra T. cruzi. En los escolares sero-reactivos se aplicó xenodiagnóstico. De los 282 alumnos, el 96,5 por ciento tuvo contacto visual con el T. infestans. 32 (11,3 por ciento) resultaron con serología reactiva a ambas pruebas, 13,3 por ciento en varones 9,1 por ciento en mujeres (p=0,26). 4 de 31 sero-reactivos (12,9 por ciento) presentaron xenodiagnóstico positivo. No se halló asociación estadísticamente significativa entre seropositividad y edad o sexo. Solamente se halló riesgo estadísticamente significativo de infección en aquellos que habitaban viviendas totalmente rústicas en relación a aquellos que lo hacían en viviendas construidas total o parcialmente con material noble. Concluimos que la enfermedad de Chagas continúa siendo un problema de salud muy importante en la población escolar de este valle del sur peruano.