Spatial-temporal risk factors in the occurrence of rabies in Mexico.

Rabies is a zoonotic disease that affects livestock worldwide. The distribution of rabies is highly correlated with the distribution of the vampire bat Desmodus rotundus, the main vector of the disease. In this study, climatic, topographic, livestock population, vampire distribution and urban and rural zones were used to estimate the risk for presentation of cases of rabies in Mexico by co- Kriging interpolation. The highest risk for the presentation of cases is in the endemic areas of the disease, i.e. the States of Yucatán, Chiapas, Campeche, Quintana Roo, Tabasco, Veracruz, San Luis Potosí, Nayarit and Baja California Sur. A transition zone for cases was identified across northern Mexico, involving the States of Sonora, Sinaloa, Chihuahua, and Durango. The variables topography, vampire distribution, bovine population and rural zones are the most important to explain the risk of cases in livestock. This study provides robust estimates of risk and spread of rabies based on geostatistical methods. The information presented should be useful for authorities responsible of public and animal health when they plan and establish strategies preventing the spread of rabies into rabies-free regions of México.

Occurrence of Giardia duodenalis in Cats from Queretaro and the Risk to Public Health.

Giardia is a protozoan that affects humans as well as a wide range of domestic species. It is distributed worldwide, and the highest frequency is seen in developing countries. Due to the potential for domestic cats to be carriers of this parasite and subsequently transmit the infection to humans, it is important to know the risk of transmission. For this reason, the objective of this study was to determine the frequency of this parasite in the cat population of the city of Santiago de Queretaro, Mexico, and identify the assemblages present to determine the role this host plays in public health, this being the first study of its type to be performed in the country. This was a cross-sectional study during which 200 fecal samples were collected from cats of both sexes and varying ages and strata of origin. The samples were analyzed by microscopy following the flotation technique, having obtained a general frequency of 25%. Giardia cysts were found at higher frequency in pasty stools. The assemblages found were zoonotic, specifically assemblage A, which suggests that the cat poses an important risk for the dissemination of the parasite to humans, making it an important public health problem.

Vaccination Strategies in a Potential Use of the Vaccine against Bovine Tuberculosis in Infected Herds.

Bovine tuberculosis (bTB) is a disease of cattle that represents a risk to public health and causes severe economic losses to the livestock industry. Recently, one of the strategies recommended for reducing the prevalence of the disease in animals is the use of the BCG vaccine, alone or in combination with proteins. It has been shown that the vaccine elicits a strong immune response, downsizes the number of animals with visible lesions, and reduces the rate of infection as well as the bacillary count. This paper, based on scientific evidence, makes suggestions about some practical vaccination alternatives that can be used in infected herds to reduce bTB prevalence, considering BCG strains, vaccine doses, routes of application, and age of the animals. Our conclusion is that vaccination is a promising alternative to be included in current control programs in underdeveloped countries to reduce the disease burden.

Descriptive and Time-Series Analysis of Rabies in Different Animal Species in Mexico.

The spatio-temporal epidemiology of rabies has related the influence of environmental factors and anthropogenic changes on the movements of the hematophagous bat Desmodus rotundus. In Mexico, D. rotundus is the main transmitter of the rabies virus for different livestock species, modifying annually the fluctuation of the number of cases of rabies and its dissemination in subtropical areas and regions considered free of the disease. The purpose of this study was to perform a descriptive analysis of the distribution of cases of rabies in Mexico, and to perform a time-series analysis to evaluate stationarity and to predict the number of cases for the following year. A total of 3,469 cases were reported in the period of interest, of which the 89.1% occurred in cattle, 4.3% in horses, 1.5% in sheep, 0.6% in goats, 0.01% in pig, 3.1% in vampire bats, 0.3% in cervids, 0.2% in skunks, 0.1% in insectivorous bats, 0.1% in foxes, 0.1% in buffaloes, and 0.02% in coatis; 0.5% were not identified. The most frequent antigenic variants reported were AgV11, AgV5, and AgV3, associated with D. rotundus. The distribution of cases in bats correlates with the distribution of cases in domestic and wild animals; however, cases were observed in wild species in non-endemic areas of Mexico, like the State of Chihuahua. The additive model used in the time-series analysis showed a seasonal pattern with a peak of cases at the beginning of each year, from January to March. The model showed a good predicting value; the Pearson correlation coefficient R2 was 0.705. The highest probability for the occurrence of rabies cases in the different species estimated by Ordinary Kriging was in the coast of the Gulf of Mexico, involving the states of Tamaulipas, Veracruz, Tabasco, Chiapas, and Yucatan. This study confirms that rabies in domestic and wild species is endemic in tropical and subtropical areas-however, cases have been observed in new geographic areas-and provides useful information to support actions to stop the spread of the rabies virus or the reservoir, and for planning vaccination strategies considering time and place.

Quantitation of Rabies Virus in Various Bovine Brain Structures.

Bovine paralytic rabies (BPR) is a form of viral encephalitis that is of substantial economic importance throughout Latin America, where it poses a major zoonotic risk. Here, our objective was to utilize a laboratory protocol to determine the relative copy number of the rabies virus (RABV) genome in different bovine brain anatomical structures using quantitative real-time reverse transcription polymerase chain reaction (qRT-PCR). qRT-PCR quantifies the specific number of gene copies present in a sample based on fluorescence emitted after amplification that is directly proportional to the amount of target nucleic acid present in the sample. This method is advantageous owing to its short duration, reduced risk of contamination, and potential to detect viral nucleic acids in different samples more easily compared to other techniques. The brains of six rabid animals were divided into six anatomical structures, namely the Ammon's horn, cerebellum, cortex, medulla, pons, and thalamus. All brains were identified as positive for RABV antigens based on a direct immunofluorescence test. The same anatomical structures from the brains of four RABV-negative bovines were also assessed. RNA was extracted from each structure and used for qRT-PCR. An assay was performed to determine the copy numbers of RABV genes using an in vitro transcribed nucleoprotein gene. The standard curve used to quantify viral RNA exhibited an efficiency of 100% and linearity of 0.99. Analysis revealed that the cortex, medulla, and thalamus were the ideal CNS portions for use in RABV detection, based on the observation that these structures possessed the highest levels of RABV. The test specificity was 100%. All samples were positive, no false positives were detected. This method can be used to detect RABV in samples that contain low levels of RABV during diagnosis of BPR.

Prime Vaccination with Chitosan-Coated Phipps BCG and Boosting with CFP-PLGA against Tuberculosis in a Goat Model.

Attempts to improve the immune response and efficacy of vaccines against tuberculosis in cattle, goats, and other animal species have been the focus of research in this field during the last two decades. Improving the vaccine efficacy is essential prior to running long-lasting and expensive field trials. Studies have shown that vaccine protocols utilizing boosting with proteins improve the vaccine efficacy. The use of polymers such as chitosan and PolyLactic-co-Glycolic Acid (PLGA) improves the immune response against different diseases by improving the interaction of antigens with the cellular immune system and modulating the host immune response. This study shows that the prime BCG vaccination, boosted with a culture filtrate protein (CFP), alone or in combination with chitosan and PolyLactic-co-Glycolic Acid (PLGA), have the potential to reduce tuberculosis (TB) dissemination by reducing the number of animals with lesions, the number of lesions per animal, and the size of the lesions in vaccinated animals, compared with those not vaccinated or those vaccinated with BCG alone. The vaccinated groups showed significantly higher Interferon-γ levels in the blood compared to the control, nonvaccinated group after vaccination, after boosting, and after the challenge with the wild-type Mycobacterium bovis strain.

Spatiotemporal analysis of rabies in cattle in central Mexico.

Spatial epidemiology of bat-transmitted rabies in cattle has been limited to spatial distribution of cases, an approach that does not identify hidden patterns and the spread resulting in outbreaks in endemic and susceptible areas. Therefore, the purpose of this study was to determine the relationship between the three variables average annual maximum, annual minimum temperature and precipitation in the region on the one hand, and the spatial distribution of cases on the other, using geographic information systems and co-Kriging considering that these environmental variables condition the existence of the rabies vector Desmodus rotundus. A stationary behaviour between the primary and the secondary variables was verified by basic statistics and moving window statistics. The directions of greater and lesser spatial continuity were determined by experimental cross-semivariograms. It was found that the highest risk for bovine paralytic rabies occurs in areas known as La Huasteca Potosina and La Sierra Gorda that are characterized by a maximum temperature of 29.5 °C, a minimum temperature of 16.5 °C and precipitation of 1200 mm. A risk estimation map was obtained for the presence of rabies with a determination coefficient greater than 95%, and a correlation coefficient greater than 0.95. Our conclusion is that ordinary co- Kriging provides a better estimation of risk and spatial distribution of rabies than simple Kriging, making this the method recommended for risk estimation and regional distribution of rabies.

Molecular Relationship between Strains of M. bovis from Mexico and Those from Countries with Free Trade of Cattle with Mexico.

The purpose of this study was to identify relationships between spoligotypes of M. bovis from cattle in Mexico and those reported in countries with free trade of cattle with Mexico: Australia, Canada, New Zealand and the United States of America. Mexican spoligotypes were obtained from isolates collected from cattle in different parts of the country. Spoligotypes from Canada and New Zealand were obtained from different reports in the literature. Those from the United States were obtained from the database of the National Veterinary Services Laboratory in APHIS-USDA. In order to perform the analysis in a single data set, spoligotypes were all converted to binary data and classified according to www.mbovis.org or www.pasteur-guadeloupe.fr:8081. Epidemiologic information included country and species infected. From 3,198 isolates, 174 different spoligotypes were obtained, 95 were orphans. Ninety one percent of the isolates came from the Unites States (n = 1,609) and Mexico (n = 1,323). Spoligotype SB0265 is shared between Canada and the United States in cattle and wildlife. Six spoligotypes, SB0673, SB0121, SB0145, SB0971, SB0140 and SB1165, were frequent in cattle and wildlife in the United States and cattle in Mexico, suggesting wide exchange of strains. Spoligotype SB0669 was found only in Mexico. Spoligotype SB0140 was the most common in Australia and the sixth in the United States and Mexico. In a phylogenetic analysis, spoligotype SB0140 appears as the oldest spoligotype in the data set, suggesting this as the ancestral spoligotype for all spoligotypes in the five countries. Some spoligotypes are shared by animals and humans, corroborating the zoonotic importance of M. bovis.

Comportamiento epidemiológico de la rabia paralítica bovina en la región central de México, 2001-2013 / Epidemiological trends in bovine paralytic rabies in central Mexico, 2001-2013

OBJETIVO:Determinar la distribución geoespacial de los casos de rabia paralítica bovina transmitida por Desmodus rotundus en los estados de Guanajuato, Querétaro y San Luis Potosí, México. MÉTODOS: Estudio epidemiológico transversal a partir de los casos notificados por las campañas estatales de control de la rabia paralítica bovina en Guanajuato (2008-2013), Querétaro (2005-2013) y San Luis Potosí (2001-2013). Se confirmaron los casos por inmunofluorescencia directa. Se elaboraron mapas de distribución de los casos por año y por especie, mediante el software ArcMap versión 10.1. Para identificar áreas con condiciones apropiadas para la presencia de casos se combinaron las variables bioclimáticas con los casos georreferenciados, mediante el programa MaxEnt versión 3.3.3. RESULTADOS: Se registraron 1 037 casos, de los cuales, 911 (87,9%) ocurrieron en San Luis Potosí, 82 (7,9%) en Querétaro y 44 (4,2%) en Guanajuato. Del total, 87,4% ocurrió en alturas menores de 1 500 msnm. En Guanajuato y Querétaro, 77,3% y 42,3% de los casos, respectivamente, ocurrieron en alturas mayores de 1 500 msnm. Los meses de mayor incidencia fueron de diciembre a marzo. La variante antigénica viral V11 fue la más frecuente (173 casos), presente en los tres estados estudiados. En el canal endémico, el promedio de casos se mantiene en la zona de seguridad de enero a marzo, pero de abril a junio excede la mediana. La distribución espacial de los casos muestra la diseminación reciente de la enfermedad, lo que coincide con la presencia del murciélago vampiro. CONCLUSIONES: La rabia paralítica bovina se ha extendido a regiones anteriormente libres de esta enfermedad. Las características ambientales y la altura sobre el nivel del mar no limitan la presentación de casos. Se debe mantener un monitoreo constante para la detección oportuna de casos. La vacunación se debe realizar antes del comienzo de las lluvias, sin esperar la aparición de brotes.

OBJECTIVE: To determine the geospatial distribution of bovine paralytic rabies cases transmitted by Desmodus rotundus in the Mexican states of Guanajuato, Querétaro, and San Luis Potosí. METHODS: This was a cross-sectional epidemiological study based on cases reported during statewide campaigns for the control of bovine paralytic rabies in Guanajuato (2008-2013), Querétaro (2005-2013) and San Luis Potosí (2001-2013). All cases were confirmed by direct immunofluorescence. Maps showing the distribution of cases by year and species were constructed using ArcMap version 10.1. To identify areas where conditions favor the appearance of cases, bioclimatic variables were combined with georeferenced cases using MaxEnt version 3.3.3. RESULTS: Of the 1037 cases recorded, 911 (87.9%) occurred in San Luis Potosí, 82 (7.9%) in Querétaro, and 44 (4.2%) in Guanajuato. Of the total number of cases, 87.4% occurred at altitudes of less than 1500 meters above sea level. In Guanajuato and Querétaro, 77.3% and 42.3% of the cases, respectively, occurred at altitudes greater than 1 500 meters above sea level. Peak incidence was recorded from December to March. The V11 antigenic variant of the virus was the most common (173 cases); it was found in all three states. In the endemic channel, the average number of cases remains within the security zone from January to March but exceeds the median value from April to June. The spatial distribution of cases shows that the disease has spread recently, which correlates with the presence of the vampire bat. CONCLUSIONS: Bovine paralytic rabies has spread to areas that were formerly free of the disease. Environmental characteristics and the altitude above sea level do not limit the appearance of cases. Constant monitoring should be conducted for early case detection. Vaccination should take place before the rainy season starts, without waiting for outbreaks to occur.

Comportamiento epidemiológico de la rabia paralítica bovina en la región central de México, 2001–2013 / Epidemiological trends in bovine paralytic rabies in central Mexico, 2001–2013

Objetivo. Determinar la distribución geoespacial de los casos de rabia paralítica bovina transmitida por Desmodus rotundus en los estados de Guanajuato, Querétaro y San Luis Potosí, México. Métodos. Estudio epidemiológico transversal a partir de los casos notificados por las campañas estatales de control de la rabia paralítica bovina en Guanajuato (2008–2013), Querétaro (2005–2013) y San Luis Potosí (2001–2013). Se confirmaron los casos por inmunofluorescencia directa. Se elaboraron mapas de distribución de los casos por año y por especie, mediante el software ArcMap versión 10.1. Para identificar áreas con condiciones apropiadas para la presencia de casos se combinaron las variables bioclimáticas con los casos georreferenciados, mediante el programa MaxEnt versión 3.3.3. Resultados. Se registraron 1 037 casos, de los cuales, 911 (87,9%) ocurrieron en San Luis Potosí, 82 (7,9%) en Querétaro y 44 (4,2%) en Guanajuato. Del total, 87,4% ocurrió en Alturas menores de 1 500 msnm. En Guanajuato y Querétaro, 77,3% y 42,3% de los casos, respectivamente, ocurrieron en alturas mayores de 1 500 msnm. Los meses de mayor incidencia fueron de diciembre a marzo. La variante antigénica viral V11 fue la más frecuente (173 casos), presente en los tres estados estudiados. En el canal endémico, el promedio de casos se mantiene en la zona de seguridad de enero a marzo, pero de abril a junio excede la mediana. La distribución espacial de los casos muestra la diseminación reciente de la enfermedad, lo que coincide con la presencia del murciélago vampiro. Conclusiones. La rabia paralítica bovina se ha extendido a regiones anteriormente libres de esta enfermedad. Las características ambientales y la altura sobre el nivel del mar no limitan la presentación de casos. Se debe mantener un monitoreo constante para la detección oportuna de casos. La vacunación se debe realizar antes del comienzo de las lluvias, sin esperar la aparición de brotes.

Objective. To determine the geospatial distribution of bovine paralytic rabies cases transmitted by Desmodus rotundus in the Mexican states of Guanajuato, Querétaro, and San Luis Potosí. Methods. This was a cross-sectional epidemiological study based on cases reported during statewide campaigns for the control of bovine paralytic rabies in Guanajuato (2008–2013), Querétaro (2005–2013) and San Luis Potosí (2001–2013). All cases were confirmed by direct immunofluorescence. Maps showing the distribution of cases by year and species were constructed using ArcMap version 10.1. To identify areas where conditions favor the appearance of cases, bioclimatic variables were combined with georeferenced cases using MaxEnt version 3.3.3. Results. Of the 1037 cases recorded, 911 (87.9%) occurred in San Luis Potosí, 82 (7.9%) in Querétaro, and 44 (4.2%) in Guanajuato. Of the total number of cases, 87.4% occurred at altitudes of less than 1500 meters above sea level. In Guanajuato and Querétaro, 77.3% and 42.3% of the cases, respectively, occurred at altitudes greater than 1 500 meters above sea level. Peak incidence was recorded from December to March. The V11 antigenic variant of the virus was the most common (173 cases); it was found in all three states. In the endemic channel, the average number of cases remains within the security zone from January to March but exceeds the median value from April to June. The spatial distribution of cases shows that the disease has spread recently, which correlates with the presence of the vampire bat. Conclusions. Bovine paralytic rabies has spread to areas that were formerly free of the disease. Environmental characteristics and the altitude above sea level do not limit the appearance of cases. Constant monitoring should be conducted for early case detection. Vaccination should take place before the rainy season starts, without waiting for outbreaks to occur.

[Epidemiological trends in bovine paralytic rabies in central Mexico, 2001-2013]. / Comportamiento epidemiológico de la rabia paralítica bovina en la región central de México, 2001-2013.

OBJECTIVE: To determine the geospatial distribution of bovine paralytic rabies cases transmitted by Desmodus rotundus in the Mexican states of Guanajuato, Querétaro, and San Luis Potosí. METHODS: This was a cross-sectional epidemiological study based on cases reported during statewide campaigns for the control of bovine paralytic rabies in Guanajuato (2008-2013), Querétaro (2005-2013) and San Luis Potosí (2001-2013). All cases were confirmed by direct immunofluorescence. Maps showing the distribution of cases by year and species were constructed using ArcMap version 10.1. To identify areas where conditions favor the appearance of cases, bioclimatic variables were combined with georeferenced cases using MaxEnt version 3.3.3. RESULTS: Of the 1037 cases recorded, 911 (87.9%) occurred in San Luis Potosí, 82 (7.9%) in Querétaro, and 44 (4.2%) in Guanajuato. Of the total number of cases, 87.4% occurred at altitudes of less than 1500 meters above sea level. In Guanajuato and Querétaro, 77.3% and 42.3% of the cases, respectively, occurred at altitudes greater than 1 500 meters above sea level. Peak incidence was recorded from December to March. The V11 antigenic variant of the virus was the most common (173 cases); it was found in all three states. In the endemic channel, the average number of cases remains within the security zone from January to March but exceeds the median value from April to June. The spatial distribution of cases shows that the disease has spread recently, which correlates with the presence of the vampire bat. CONCLUSIONS: Bovine paralytic rabies has spread to areas that were formerly free of the disease. Environmental characteristics and the altitude above sea level do not limit the appearance of cases. Constant monitoring should be conducted for early case detection. Vaccination should take place before the rainy season starts, without waiting for outbreaks to occur.