[Human parasites in surface water used for recreation in Salta, Argentina]. / Parásitos humanos en aguas superficiales de uso recreativo en Salta, Argentina.

Waterborne diseases can have different origins, micro-organisms such as bacteria and parasites being the most important ones. In this study, two recreational aquatic environments were studied in the province of Salta, Argentina. Water samples collected from three different locations, two from a creek and one from the outlet of a thermal complex, were monitored at four time points. Physicochemical and microbiological characterization of each point was conducted, as well as a search for parasites and amebae. Parasites were identified through optical microscopy observations and free-living amebae (FLA) were isolated by spiking in Petri dishes followed by subsequent molecular identification. Water samples from the outlet of the thermal complex showed different physicochemical characteristics from those of the creek. Bacterial indicators of contamination were detected at all points; however, the creek water had a significantly higher concentration of Pseudomonas sp. Sporadically, creek samples exhibited Ascaris spp. eggs, Giardia sp. cysts, and ancylostomid eggs. The presence of FLA was observed in all samples, 15 of which were isolated and identified as Acanthamoeba sp., mostly belonging to the T4 genotype. Parasite surveillance in recreational aquatic environments is an important complement to traditional microbial indicators for assessing water quality. The identified parasites represent a potential health risk for people using these environments.

[Quantification of parasites in aquatic environments in the Province of Salta, Argentina]. / Cuantificación y evaluación de la estacionalidad de elementos parasitarios en ambientes acuáticos recreativos de la provincia de Salta, Argentina.

Microbiological pollution of recreational waters is a major problem for public health as it may transmit waterborne diseases. To assess water quality, current legislation only requires limits for bacterial indicators; however, these organisms do not accurately predict the presence of parasites. Small number of parasites is usually present in water and although they are capable of causing disease, they may not be high enough to be detected. Detection therefore requires water samples to be concentrated. In this work three recreational aquatic environments located in the province of Salta were monitored over one year. For parasite quantification, water samples were collected every three months and concentrated by ultrafiltration. Detection was performed by microscopy. In addition, monthly monitoring was carried out in each aquatic environment: physicochemical variables were measured in situ and bacteriological counts were determined by traditional microbiological techniques. Of 14 parasites identified, at least nine were detected in each aquatic environment sampled. While bacteriological contamination decreased in most cases during winter (76-99%), parasites were present year-round, becoming a continual threat to public health. Thus, we here propose that it is necessary to use specific parasitological indicators to prevent waterborne disease transmission. Our results suggest that Entamoeba would be a suitable indicator as it was found in all environments and showed minimal seasonal variation. The results obtained in this study have epidemiological relevance and will allow decision-makers to propose solutions for water protection in order to care for population health.

Cuantificación y evaluación de la estacionalidad de elementos parasitarios en ambientes acuáticos recreativos de la provincia de Salta, Argentina / Quantification of parasites in aquatic environments in the Province of Salta, Argentina

La contaminación microbiológica de aguas recreativas es un problema preocupante, ya que las personas que las utilizan pueden contraer enfermedades que podrían afectar su bienestar general. Para evaluar la calidad del agua, las legislaciones existentes solo establecen límites de indicadores bacterianos, los cuales no predicen con exactitud la presencia de parásitos. Además, la cantidad de parásitos presentes en el agua, aunque suficiente para producir enfermedad, suele ser pequeña, por lo que, se necesita una etapa previa de concentración para poder detectarlos. En este trabajo se monitorearon trimestralmente durante un año tres ambientes acuáticos de usos recreativos de la provincia de Salta, realizando la concentración de las muestras y la posterior preparación para la búsqueda de elementos parasitarios por microscopía. Adicionalmente, en cada ambiente se midieron mensualmente variables fisicoquímicas in situ y variables bacteriológicas por técnicas microbiológicas tradicionales. En cada ambiente se encontraron como mínimo 9 de los 14 parásitos detectados en conjunto. La presencia de los elementos parasitarios no presentó correlación con indicadores bacterianos en ningún ambiente ni en ninguna de las estaciones (p > 0,05). Mientras que en invierno la contaminación bacteriológica disminuyó entre un 76 % y un 99 %, los elementos parasitarios no presentaron disminución estacional. Los resultados permiten sugerir al género Entamoeba como indicador anual de contaminación parasitaria, ya que este fue encontrado en todos los ambientes con mínimas variaciones estacionales. Estos resultados poseen relevancia epidemiológica, dado que permitirán a los tomadores de decisiones proponer medidas para mejorar el bienestar de la población.(AU)

Microbiological pollution of recreational waters is a major problem for public health as it may transmit waterborne diseases. To assess water quality, current legislation only requires limits for bacterial indicators; however, these organisms do not accurately predict the presence of parasites. Small number of parasites is usually present in water and although they are capable of causing disease, they may not be high enough to be detected. Detection therefore requires water samples to be concentrated. In this work three recreational aquatic environments located in the province of Salta were monitored over one year. For parasite quantification, water samples were collected every three months and concentrated by ultrafiltration. Detection was performed by microscopy. In addition, monthly monitoring was carried out in each aquatic environment: physicochemical variables were measured in situ and bacteriological counts were determined by traditional microbiological techniques. Of 14 parasites identified, at least nine were detected in each aquatic environment sampled. While bacteriological contamination decreased in most cases during winter (76-99%), parasites were present year-round, becoming a continual threat to public health. Thus, we here propose that it is necessary to use specific parasitological indicators to prevent waterborne disease transmission. Our results suggest that Entamoeba would be a suitable indicator as it was found in all environments and showed minimal seasonal variation. The results obtained in this study have epidemiological relevance and will allow decision-makers to propose solutions for water protection in order to care for population health.(AU)

Cuantificación y evaluación de la estacionalidad de elementos parasitarios en ambientes acuáticos recreativos de la provincia de Salta, Argentina / Quantification of parasites in aquatic environments in the Province of Salta, Argentina

La contaminación microbiológica de aguas recreativas es un problema preocupante, ya que las personas que las utilizan pueden contraer enfermedades que podrían afectar su bienestar general. Para evaluar la calidad del agua, las legislaciones existentes solo establecen límites de indicadores bacterianos, los cuales no predicen con exactitud la presencia de parásitos. Además, la cantidad de parásitos presentes en el agua, aunque suficiente para producir enfermedad, suele ser pequeña, por lo que, se necesita una etapa previa de concentración para poder detectarlos. En este trabajo se monitorearon trimestralmente durante un año tres ambientes acuáticos de usos recreativos de la provincia de Salta, realizando la concentración de las muestras y la posterior preparación para la búsqueda de elementos parasitarios por microscopía. Adicionalmente, en cada ambiente se midieron mensualmente variables fisicoquímicas in situ y variables bacteriológicas por técnicas microbiológicas tradicionales. En cada ambiente se encontraron como mínimo 9 de los 14 parásitos detectados en conjunto. La presencia de los elementos parasitarios no presentó correlación con indicadores bacterianos en ningún ambiente ni en ninguna de las estaciones (p > 0,05). Mientras que en invierno la contaminación bacteriológica disminuyó entre un 76 % y un 99 %, los elementos parasitarios no presentaron disminución estacional. Los resultados permiten sugerir al género Entamoeba como indicador anual de contaminación parasitaria, ya que este fue encontrado en todos los ambientes con mínimas variaciones estacionales. Estos resultados poseen relevancia epidemiológica, dado que permitirán a los tomadores de decisiones proponer medidas para mejorar el bienestar de la población.

Microbiological pollution of recreational waters is a major problem for public health as it may transmit waterborne diseases. To assess water quality, current legislation only requires limits for bacterial indicators; however, these organisms do not accurately predict the presence of parasites. Small number of parasites is usually present in water and although they are capable of causing disease, they may not be high enough to be detected. Detection therefore requires water samples to be concentrated. In this work three recreational aquatic environments located in the province of Salta were monitored over one year. For parasite quantification, water samples were collected every three months and concentrated by ultrafiltration. Detection was performed by microscopy. In addition, monthly monitoring was carried out in each aquatic environment: physicochemical variables were measured in situ and bacteriological counts were determined by traditional microbiological techniques. Of 14 parasites identified, at least nine were detected in each aquatic environment sampled. While bacteriological contamination decreased in most cases during winter (76-99%), parasites were present year-round, becoming a continual threat to public health. Thus, we here propose that it is necessary to use specific parasitological indicators to prevent waterborne disease transmission. Our results suggest that Entamoeba would be a suitable indicator as it was found in all environments and showed minimal seasonal variation. The results obtained in this study have epidemiological relevance and will allow decision-makers to propose solutions for water protection in order to care for population health.

Cuantificación y evaluación de la estacionalidad de elementos parasitarios en ambientes acuáticos recreativos de la provincia de Salta, Argentina. / [Quantification of parasites in aquatic environments in the Province of Salta, Argentina].

Microbiological pollution of recreational waters is a major problem for public health as it may transmit waterborne diseases. To assess water quality, current legislation only requires limits for bacterial indicators; however, these organisms do not accurately predict the presence of parasites. Small number of parasites is usually present in water and although they are capable of causing disease, they may not be high enough to be detected. Detection therefore requires water samples to be concentrated. In this work three recreational aquatic environments located in the province of Salta were monitored over one year. For parasite quantification, water samples were collected every three months and concentrated by ultrafiltration. Detection was performed by microscopy. In addition, monthly monitoring was carried out in each aquatic environment: physicochemical variables were measured in situ and bacteriological counts were determined by traditional microbiological techniques. Of 14 parasites identified, at least nine were detected in each aquatic environment sampled. While bacteriological contamination decreased in most cases during winter (76-99

), parasites were present year-round, becoming a continual threat to public health. Thus, we here propose that it is necessary to use specific parasitological indicators to prevent waterborne disease transmission. Our results suggest that Entamoeba would be a suitable indicator as it was found in all environments and showed minimal seasonal variation. The results obtained in this study have epidemiological relevance and will allow decision-makers to propose solutions for water protection in order to care for population health.

Increasing capacity for environmental engineering in Salta, Argentina.

BACKGROUND: The Fogarty International Center (FIC) of the United States National Institutes of Health includes the International Training and Research in Environmental and Occupational Health (ITREOH) Program. The "International Training Program in Environmental Toxicology and Public Health" Center, funded in 2002 is based at the University of California, Davis, and is part of the ITREOH group of Centers. It has major efforts focused at the public universities in Montevideo, Uruguay, and Salta, Argentina. RESULTS: Training and research efforts in Salta begun in 2005 in the College of Engineering. A donated used real-time PCR machine was the starting point and the initial FIC support was instrumental to face other problems including physical space, research projects and grants, trainees, training, networking, and distractions/opportunities in order to develop local capacities in Environmental Engineering using modern methodology. After 6 years of successful work, the Salta center has become a reference Center in the field, and is still growing and consolidating. CONCLUSIONS: This program has had a significant impact locally and regionally. The model used in Argentina could be easily adapted to other fields or types of projects in Argentina and in other developing countries.

[Comparison of nucleic acid extraction efficiency using different commercial kits and qPCR. Effect of inhibitors]. / Comparación de la eficiencia de extracción de ácidos nucleicos utilizando distintos kits comerciales y empleando la qPCR. Efecto de las sustancias inhibidoras.

The detection of specific nucleic acid (NA) sequences by PCR has revolutionized the biological and medical sciences. Real-time PCR (qPCR) opened up the possibility of obtaining quantitative results. NA extraction is a decisive step prior to qPCR since it may produce either the removal or co-extraction of inhibitory substances of the enzymatic reaction, which in turn affects the amplification efficiency. In the present work we compared the commercial NA extraction kits from Qiagen, Invitrogen and Macherey-Nagel, which were used to extract DNA from mice blood artificially infected with Trypanosoma cruzi and PP7 RNA, Pseudomonas aeruginosa bacteriophage, in spiked aqueous matrices. NA recovery efficiency in samples without inhibitors was similar for the three extraction kits. However, the Invitrogen kit was the only one that remained unaffected in the presence of inhibitors in the samples.

Environmental surveillance of norovirus in Argentina revealed distinct viral diversity patterns, seasonality and spatio-temporal diffusion processes.

Norovirus (NoV) contamination was evaluated in five rivers of Argentina between 2005 and 2011. NoV was present in all sampled rivers, with distinct NoV patterns in waters impacted by different-sized communities. In rivers affected by medium-sized populations (Salta and Córdoba cities) only one or two genotypes were present, GII.4 being the main one, with winter seasonality. In contrast, in the much more heavily populated area of Buenos Aires city the prevalent GII.4 was accompanied by several additional genotypes (GII.4, GII.b, GII.2, GII.7, GII.17, GII.e and GII.g) and one ungenotyped GII NoV, with no clear seasonality. GII.4 2006b was the main variant detected (60.9%). Phylogeographic and phylodynamic analyses performed in region D of the VP1 gene showed a most recent common ancestor in 2002 and a substitution rate of 3.7×10(-3) substitutions per site per year (HPD95%=2.3×10(-3)-5.2×10(-3)) for this variant still involving a significant population size with a slight decrease since 2008. The spatio-temporal diffusion analysis proposed Europe as an intermediate path between the American Continent and the rest of the World for NoV dissemination. Given the importance of NoV as a cause of epidemic gastroenteritis and the likelihood of its environmental transmission, the results of this work should increase public and institutional awareness of the health risk involved in sewage discharges into the environment. Environmental surveillance of enteric viruses could be a very useful tool not only to prevent waterborne outbreaks, but also to describe the epidemiology of the viruses. The detailed analysis of the viral genomes disposed into the environment contributed to the characterization of the dissemination, diversity and seasonality of NoV in its natural host population. In future studies, environmental surveillance and molecular analysis should be complemented with a quantitative viral risk assessment for estimating the disease burden from viruses in the environment.

Diarrhea and parasitosis in Salta, Argentina.

BACKGROUND: Salta city is the capital of the province with the same name located in the northwest of Argentina. Its great growth over the last decade was not organized and the population expanded to occupy places where water and sanitation were not yet available. Although the Arenales River, crossing the city, receives the impact of point and non-point source pollution, the water is used for many purposes, including domestic in the poorest areas, industrial, and recreational with children as the main users. According to the World Health Organization, an estimated 24% of the global disease burden and 23% of all deaths can be attributed to environmental factors. In particular, an estimated 94% of the diarrheal burden of disease is attributable to environment, and is associated with risk factors such as unsafe drinking water and poor sanitation and hygiene. Chronic diarrhea can be caused by an infection or other etiologies; however, most of the times the etiological agent is not identified. METHODOLOGY: All the cases of diarrhea and parasitosis reported during 2005 in four public health centers of the city of Salta were classified by gender and age, analyzed, and represented geographically to show areas of higher morbidity rates, which were probably related to environmental factors. RESULTS: Water, poor sanitation, and pollution are candidate risk factors. Diarrhea cases showed seasonality, with the highest incidence during late spring and summer, while parasitosis was persistent throughout the year. CONCLUSION: Our spatial analysis permitted us to detect the regions of higher incidence of diarrhea and parasitosis during 2005 in the area of study.