Human Trypanosoma cruzi infection and seropositivity in Dogs, Mexico.We used 5 diagnostic tests in a cross-sectional investigation of the prevalence of Trypanosoma cruzi Trypanosoma cru·zi n. A protozoan that is the causative agent of South American trypanosomiasis. in Tejupilco municipality, State of Mexico The State of México (often abbreviated to "Edomex" from Estado de México in Spanish) is a state in the center of the nation of Mexico. The State's capital is the city of Toluca. , Mexico. Our findings showed a substantial prevalence of immunoglobulin G immunoglobulin G n. Abbr. IgG The most abundant class of antibodies found in blood serum and lymph and active against bacteria, fungi, viruses, and foreign particles. Immunoglobulin G antibodies trigger action of the complement system. (IgG) and IgM antibodies to T. cruzi in human (n = 293, IgG 2.05%, IgM 5.5%, both 7.1%) and dog (n = 114, IgG 15.8%, IgM 11.4%, both 21%) populations. We also found antibodies to T. cruzi (n = 80, IgG 10%, IgM 15%, both 17.5%) in dogs from Toluca, an area previously considered free of T. cruzi. Our data demonstrate the need for active epidemiologic surveillance epidemiologic surveillance The ongoing, systematic collection, analysis, and interpretation of health data essential to planning, implementing, and evaluating public health practice, closely integrated with the timely dissemination of these data to those who need to know programs in these regions. A direct correlation Noun 1. direct correlation - a correlation in which large values of one variable are associated with large values of the other and small with small; the correlation coefficient is between 0 and +1 positive correlation ([r.sup.2] = 0.955) of seropositivity Seropositivity is the presence of a certain antibody in a blood sample. A patient with seropositivity for a particular antigen or agent is termed seropositive. between humans and dogs suggests that seroanalysis in dogs may help identify the human prevalence of T. cruzi infection in these areas. ********** Trypanosoma cruzi, which causes Chagas disease Cha·gas disease or Cha·gas-Cruz disease n. See South American trypanosomiasis. , affects [approximately equal to] 17.4 million people in the Western Hemisphere Western Hemisphere Part of Earth comprising North and South America and the surrounding waters. Longitudes 20° W and 160° E are often considered its boundaries. (1). The first case of human infection with T. cruzi in Mexico was reported in 1936 (2). A national sero-survey from 1987 to 1989 reported a seroprevalence seroprevalence Immunology The proportion of a population that is seropositive–ie, has been exposed to a particular pathogen or immunogen; the seropositivity of a population is calculated as the number of individuals who produce a particular antibody divided of 1.6% ([much greater than] 1.6 million people) and widespread T. cruzi infection in the inhabitants
The game is based loosely on the concepts from SameGame. of 23 of the 32 provinces of Mexico (3,4). A similar prevalence of T. cruzi-specific antibodies (1.5%) was observed in national blood bank repositories (5). Rural Mexican villages were confirmed as endemic zones for T. cruzi. Other investigators reported <20% seropositivity in inhabitants of rural areas south of the Tropic of Cancer Tropic of Cancer, parallel of latitude at 23°30' north of the equator; it is the northern boundary of the tropics. This parallel marks the farthest point north at which the sun can be seen directly overhead at noon; north of the parallel the sun appears less than (4,6,7). In 1992, the State of Mexico was documented to be free of T. cruzi (n = 2,800 seropositive seropositive /se·ro·pos·i·tive/ (-poz´i-tiv) showing positive results on serological examination; showing a high level of antibody. se·ro·pos·i·tive adj. , <0.2%) (3). Another survey of 3,300 blood donors in Mexico City Mexico City Spanish Ciudad de México City (pop., 2000: city, 8,605,239; 2003 metro. area est., 18,660,000), capital of Mexico. Located at an elevation of 7,350 ft (2,240 m), it is officially coterminous with the Federal District, which occupies 571 sq mi identified a seropositive rate of 0.3% (8), and many of these donors had no history of traveling to disease-endemic areas. Other studies from 1998 to 2000 reported acute cases of 17. cruzi infection and seropositivity among inhabitants of the State of Mexico (9 and C. Guzman-Bracho, unpub, data). Circulation of T. cruzi is maintained by the interaction of bloodsucking blood·suck·er n. 1. An animal, such as a leech, that sucks blood. 2. An extortionist or a blackmailer. 3. A person who is intrusively or overly dependent upon another; a parasite. triatomines with humans and reservoir animal hosts (1). Of the 31 triatomine species identified in Mexico, Triatoma barberi, Triatoma dimidiata Triatoma dimidiata is a blood-sucking insect and it is among the most important vectors of Chagas disease. It is found from northern South America (Colombia, Venezuela, Ecuador, and Peru), throughout all the countries of Central America and into Southern Mexico. , and Triatoma pallidipennis have the highest vectorial activity in central and southern Mexico (4,10,11). An entomologic en·to·mol·o·gy n. The scientific study of insects. en  to·mo·log survey in the spring of 2001 documented widespread
distribution of T. pallidipennis in the southern part of the State of
Mexico (infestation infestation /in·fes·ta·tion/ (-fes-ta´shun) parasitic attack or subsistence on the skin and/or its appendages, as by insects, mites, or ticks; sometimes used to denote parasitic invasion of the organs and tissues, as by helminths. index 9.9%, density index 2.7%-3.0%) and suggested
that active transmission of T. cruzi may occur (12).Dogs are considered important in the dynamics of T. cruzi infection of triatomines and transmission within human dwellings (1,13,14). Seropositive domestic and stray dogs have been found in some states of Mexico (15-17). However, the prevalence of T. cruzi in dogs and the role of these reservoir animals in parasite transmission in the State of Mexico have not been determined. In this study, we report the seroprevalence of T. cruzi among persons and dogs in the villages in the southern part of the State of Mexico and discuss the potential diagnostic meaning of seropositivity in dogs for identifying seroprevalence in humans. We also present data suggesting the likelihood of T. cruzi transmission in Toluca. Our observations emphasize that relevant health agencies need to conduct active epidemiologic surveillance programs and implement vector control Vector control is any method to limit or eradicate the vectors of vector born diseases, for which the pathogen (e.g. virusor parasite) is transmitted by a vector which can be mammals, birds or arthropods, especially insects, and more specifically mosquitoes. strategies in the State of Mexico. Materials and Methods Parasites T. cruzi epimastigotes were cultivated as previously described (18). Epimastigote (Mexican isolates) antigen extract was used for the serologic tests conducted at the Instituto de Diagnostico y Referencia Epidemiologicos Secretaria de Salud (InDRE) Mexico City. Trypomastigotes (SylvioXl0/4) were propagated in monolayers of C2C (Client to Client) An earlier term for peer-to-peer (P2P), in which one user communicates with another user without going through a server in between. See peer-to-peer. 12 cells (19) and used in the studies at the University of Texas Medical Branch "UTMB" redirects here. For other system schools, see University of Texas System. The University of Texas Medical Branch (UTMB) is a component of the University of Texas System located in Galveston, Texas, about 50 miles (80 km) southeast of downtown Houston. (UTMB UTMB University of Texas Medical Branch ) in Galveston. Study Area, Population, and Sample Collection This study was conducted in southern villages of the Tejupilco municipality, State of Mexico (Figure 1). The area has seasonal climate variations (dry season from November through May and rainy season from June through October). The population is primarily indigenous, and the main occupations are agriculture and livestock production. Migration occurs among the men to cities in Mexico List of the largest cities in Mexico: City Population (est. 2002) México, DF (Mexico City) 8,548,639 Ecatepec de Morelos, México 1,969,858 Guadalajara, Jalisco 1,651,417 Tijuana, Baja California 1,465,649 Ciudad Juárez, Chihuahua 1,440,025 and to northern border regions near the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. . [FIGURE 1 OMITTED] For the human serosurvey (N = 356), we selected 5 villages (altitude range 1,090-1,730 m) where triatomine infestation was reported by the Instituto de Salud del Estado de Mexico (ISEM ISEM ITA (Instrumentation Technology Association) Standard Experiment Model ISEM International Society for Ecological Modeling ISEM Integrated Space Environmental Model ) in >50% of the households. For comparison, we also selected La Comunidad village (altitude 2,500 m) in the same area. Since this study focused on evaluating active T. cruzi transmission, most test samples (>94%) were from children (age range 2-15 years) with a sex distribution consistent with the regional and national census. Sample randomization randomization (ranˈ·d  ·m was controlled by using EpiInfo version 3.3.2 (Centers for Disease
Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. , Atlanta, GA, USA). Oral informed consent was
obtained from adults and parents of minors enrolled in the study.
Trained ISEM personnel performed venipuncture venipuncture /veni·punc·ture/ (ven?i-pungk´chur) surgical puncture of a vein. ve·ni·punc·ture or ve·ne·punc·ture n. to obtain blood samples. The study was reviewed and approved by the human subjects committees at ISEM and UTMB. Dog serum samples were collected in Toluca and the villages selected for human screening. Toluca, the capital of the State of Mexico (altitude 2,680 m, average temperature 15[degrees]C, range 5[degrees]C-24[degrees]C) is considered free of vectorial T. cruzi transmission because triatomines (with or without T. cruzi) have never been documented in the area, and triatomines are believed not to proliferate at altitudes >2,500 m (3,4). Serum samples from 20 healthy dogs from an animal clinic in Hamburg, Germany, were used as negative controls. All animal experiments were reviewed and approved by the animal welfare committee at ISEM. Serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. Analysis At UTMB, human and dog serum samples were screened for antibodies to T. cruzi by enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. (ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. ) as previously described (20,21). All samples and controls were assayed in triplicate in at least 2 independent experiments. Seropositive samples were confirmed by immunofluorescence Immunofluorescence A technique that uses a fluorochrome to indicate the occurrence of a specific antigen-antibody reaction. The fluorochrome labels either an antigen or an antibody. flow cytometry flow cytometry (flōˑ sī·t  ˑ·m (IFC (Internet Foundation Classes) A class library from Netscape that provides an application framework and graphical user interface (GUI) routines for Java programmers. IFC was later made part of the Java Foundation Classes (JFC). See JFC, AFC and AWT. See also ICF. ) (21), and data were
expressed as the relative percentage of positively fluorescent
parasites.At InDRE, serum samples were analyzed for immunoglobulin G (IgG) antibodies to T. cruzi by ELISA, an indirect hemagglutination hemagglutination /he·mag·glu·ti·na·tion/ (he?mah-gloo-ti-na´shun) agglutination of erythrocytes. he·mag·glu·ti·na·tion n. (IHA See Intel Hub Architecture. ) test, and an indirect immunofluorescence Noun 1. indirect immunofluorescence - a method of using fluorescence microscopy to detect the presence of an antigen indirectly fluorescence microscopy - light microscopy in which the specimen is irradiated at wavelengths that excite fluorochromes (IIF IIF Institute of International Finance IIF Irish Insurance Federation IIF Immediate IF IIF Innovation Investment Fund (investment supporting R&D new technology/science ventures) IIF Intuit Interchange Format ) assay. For the ELISA, 96-well, flat-bottomed plates were UV irradiated, incubated for 1 h at 37[degrees]C with epimastigote antigen extract, and blocked with 50 [micro]L Tris-buffered saline Tris-Buffered Saline (abbreviated TBS) is a buffer used in some biochemical techniques to maintain the pH. Contents of TBS
n. A child between middle childhood and adolesence, usually between 8 and 12 years old. [Blend of teen1 and between.] 20, and 5% nonfat dry milk Noun 1. nonfat dry milk - dehydrated skimmed milk dried milk, dry milk, milk powder, powdered milk - dehydrated milk . Plates were incubated at 37[degrees]C with 50 [micro]L of each test serum sample (1:50 dilution) for 2 h, horseradish horseradish Hardy perennial plant (Armoracia lapathifolia) of the mustard family, native to Mediterranean lands and grown throughout the temperate zones. Its hotly pungent, fleshy root is used as a condiment and is traditionally considered medicinal. peroxidase-conjugated IgG (1:50 dilution) for 1 h, and substrate (o-phenylenediamine) for 20 min. The reaction was stopped by adding 2 N [H.sub.2]S[O.sub.4], and the optical density (OD) was read at 490 nm (22). The IHA and IIF assays were performed with 4-fold serial dilutions of serum samples (range 1:8-1:128) (5), and samples were considered seropositive when a strong signal was obtained at a dilution [greater than or equal to] 1:16. Epimastigote antigen extract was not used to determine IgM seropositivity for T. cruzi in this study because it has shown limited sensitivity (23,24). Statistical Analysis Significance (p<0.05) was determined with the Student t test and validated with the Fisher exact test. The level of agreement for serologic data from 5 tests conducted at UTMB and InDRE was assessed as previously described (25). Results Standardization of Serologic Assays Results of the trypomastigote-based ELISAs for IgG and IgM antibodies in positive and negative samples are shown in Figure 2. Variations in reactivity of negative and positive sera in different experiments and the same experiment ranged from 3% to 12%. The highest signal-to-noise ratios between positive and negative controls from humans (IgG 4.0, 6.5, 9.1 and IgM 3.6, 5.5, 11.3) were obtained at dilutions of 1:80, 1:160, and 1:320, respectively (Figure 2A). Thirty-five serum samples and pooled negative samples (1:100 dilution) were analyzed by ELISA (Figure 2A). Mean cutoff OD values were 0.194 for IgG and 0.270 for IgM. [FIGURE 2 OMITTED] The highest signal-to-noise ratios by ELISA between positive and negative controls from dogs (IgG 4.3, 7.9, 8.8 and IgM 2.4, 3.0, 3.5) were obtained at dilutions of 1:80, 1:160, and 1:320, respectively (Figure 2B). Cutoff OD values of 0.288 for IgG and 0.219 for IgM were obtained with serum samples from uninfected dogs in Mexico and Germany. All serum samples were analyzed at a 1:100 dilution by ELISA and IFC. The highest signal-to-noise ratio for detection of antibody to trypomastigote surface antigens by IFC was obtained with 5 x 105 parasites/reaction, which was also reported in other studies (21,26). Positive and negative control peaks were distinguishable: >90% of trypomastigotes incubated with negative sera (1:100 dilution) had a fluorescence intensity (LFI LFI Local File Inclusion LFI Link Fragmentation and Interleaving (Cisco) LFI Landesforstinventar (National Forest Inventory, Switzerland) LFI Lethal Force Institute LFI Last File Indicator ) <10 and 50%-98% of trypomastigotes incubated with positive sera (1:100 dilution) had an LFI of [10.sup.2] [10.sup.3] (Figure 3). [FIGURE 3 OMITTED] Seroprevalence of T. cruzi-specific Antibodies in Humans At UTMB, we identified 9 seropositive persons (mean seroprevalence 3.1%, range 0%-21%) from the villages of Tejupilco municipality. The mean OD value, after subtracting for background, for the seropositive population was 0.213, and the highest value was 0.419. IgG seropositivity was similarly distributed among men and women (55% vs. 45%). All seropositive samples identified by ELISA were positive for T. cruzi-specific IgG by IFC. Approximately 73% of the trypomastigotes (range 62%-91%) incubated with positive serum samples had an LFI of 10 to 500. Trypomastigotes (>98%) incubated with negative serum samples had an LFI <10 (Figure 3). The results of ELISA and IFC for detection of T. cruzi-specific antibodies showed 100% agreement. T. cruzi-specific IgG was also detected by ELISA, IIF, and IHA in a blind study at InDRE. This study identified 7 seropositive human patients, of whom 6 were positive by UTMB tests (Table 1). The maximal percentage seropositivity was identified in El Carmen There are many toponyms called Carmen or El Carmen. See also Carmen (disambiguation).
se·ro·neg·a·tive adj. (Table 2). Our data showed that 16 (5.5%) of 293 persons in Tejupilco were seropositive for IgM antibodies to T. cruzi (Table 2). The prevalence of IgM antibodies was higher in female than in male patients (64% vs. 36%). All serum samples positive by ELISA for IgM antibodies were also positive by IFC (50% 93% of the parasites with an LFI of [10.sup.2]-[10.sup.3]) (Figure 3). The overall prevalence of T. cruzi-specific antibodies (IgG and IgM) in persons in Tejupilco was 7.1% (21/293) (Table 2). Seroprevalence of T. cruzi-specific Antibodies in Dogs We used dog serum samples from Chiapas, where T. cruzi infection and transmission were reportedly endemic (7), as positive controls. These dogs had a seropositivity of 39.3% for IgG and 14.3% for IgM (Table 3 and Figure 4B). Dogs in Tejupilco had antibodies to T. cruzi (IgG 15.8%, IgM 11.4%, IgG and IgM 21.0%) (Table 3). A total of 6.1% of the dogs from Tejupilco were positive for both IgG and IgM (Figure 4C), and no sex-related differences in prevalence of parasite-specific antibodies were observed. IgG seropositivity increased with age, with the highest seroprevalence in dogs 3-6 years of age. All samples seropositive by ELISA were seropositive by IFC. A total of 57% to 94% of the parasites showed IgG-specific staining (LFI [10.sup.2]-[10.sup.4]), and 86%-98% showed IgM-specific staining (LFI 100 to 4 x [10.sup.3]) (Figure 3). Samples seropositive for IgG were confirmed by IHA (data not shown). None of the serum samples from dogs in northern villages (Apaxco, Hueypoxtla, Jaltenco, and Nextlalpan) in the State of Mexico or the German veterinary clinic (Figure 4A) had T. cruzi-specific antibodies. This result demonstrated the specificity and sensitivity of the assays used. Pairwise linear analysis showed a positive correlation Noun 1. positive correlation - a correlation in which large values of one variable are associated with large values of the other and small with small; the correlation coefficient is between 0 and +1 direct correlation of IgG seropositivity in dogs and humans in study area ([r.sup.2] = 0.955). Parasite-specific antibodies (IgG 10%, IgM 15%, IgG and IgM 17.5%) were detected in dogs from Toluca (Table 3 and Figure 4D), a region previously considered free of T. cruzi infection. [FIGURE 4 OMITTED] Discussion We detected T. cruzi-specific IgG and IgM in 7.1% of persons and 21.0% of dogs in Tejupilco. In addition, we observed an IgG and IgM seroprevalence of 17.5% in dogs in Toluca, which was previously reported to be free of T. cruzi infection. Epimastigote and trypomastigote antigens and 5 different tests were used to determine IgG seropositivity in selected areas. Nine of 293 IgG-positive patients were identified by trypomastigote-based tests, of whom 6 were also identified by [greater than or equal to] 2 of the epimastigote-based tests at InDRE. Low IgG seropositivity in the InDRE survey might have occurred because epitopes shared by epimastigote and trypomastigote forms are intracellular antigens, whereas the IgG antibodies are specific for trypomastigote surface antigens (27). Alternatively, low seropositivity may be attributed to different parasite strains used for serologic tests at the 2 institutes. A positive correlation between IgG seropositivity in humans and dogs ([r.sup.2] = 0.955) implies that dogs help identify or monitor seroprevalence in these populations. Serologic analysis has been reported to be limited in acute infections with T. cruzi (23,24). With trypomastigote antigens, we detected an IgM seroprevalence of 5.5% in humans, thus demonstrating that a robust T. cruzi-specific IgM response is mounted by humans. In addition, most of the IgM-positive persons were IgG negative. These data, along with the observation of high IgM seropositivity (11.4%) in dogs from the same area, suggest the occurrence of acute T. cruzi infection in rural villages in the State of Mexico. This view is supported by Wickner et al., who reported polymerase chain reaction-based detection of T. cruzi in blood samples from patients with acute infection identified as IgM seropositive by ELISA (agreement 94%) (28). Our study identified seropositive patients (7.1%) and high seroprevalence (21.0%) in dogs from southern villages in the State of Mexico, which has a low altitude (<1,700 m) and warm temperatures. Nearly all inhabitants screened in the study had dogs that lived near their owners in small quarters, and we observed a correlation between seropositivity in dogs and humans in these communities. Previous reports showed infestation with T. barberi and T. pallidipennis at low altitudes (<2,000 m) in all areas of Mexico (4) and inside and around houses in the southern part of the State of Mexico (12). Dogs provide frequent blood meals for T. barberi and T. pallidipennis and may acquire T. cruzi infection by ingesting infected triatomines. We surmise that the active transmission of T. cruzi occurs in the southern part of the State of Mexico, and the presence of T. cruzi in dogs and insect vectors can help determine the prevalence of T. cruzi infection in humans. Thus, low altitudes and warm temperatures may sustain vectorial activity and T. cruzi transmission in southern Mexico. Several observations support our hypothesis. First, dogs maintain parasitemia parasitemia /par·a·si·te·mia/ (par?ah-si-te´me-ah) the presence of parasites, especially malarial forms, in the blood. par·a·si·te·mi·a n. The presence of parasites in the blood. long after infection (29) and are the preferred source of blood meals for Triatoma infestans Triatoma infestans is a blood-sucking bug (like all the members of its subfamily Triatominae) and the most important vector of Chagas disease. It is widespread in the Southern Cone countries of South America; that is, in Bolivia, Argentina, Uruguay, Paraguay, Chile, Brazil (30). Second, the prevalence rate of infective T. infestans in a household increases with the number of infected dogs in the vicinity (13). In accordance with the increase in infected insects, the seroprevalence of infected adults doubled in households with 1 to 2 infected dogs (14). Third, T. cruzi-specific antibodies have been identified in humans (4%) and dogs (10%) in rural villages of Puebla, Mexico, where active vectorial transmission, shown by a high dispersion area index (55%) and colonization index (40%), was also noted (17). We observed a high seroprevalence of IgG and IgM antibodies (17.5%) in dogs from Toluca. Additional studies would determine whether changes in behavior and localization Customizing software and documentation for a particular country. It includes the translation of menus and messages into the native spoken language as well as changes in the user interface to accommodate different alphabets and culture. See internationalization and l10n. of triatomines at higher altitudes may lead to T. cruzi infection in dogs in Toluca. Alternatively, a high rate of migration from endemic to nonendemic zones exists in Mexico. At institutional blood banks, [approximately equal to] 40% of donors reported to be permanent residents of Mexico City were born in other states of Mexico (C. Guzman-Bracho, unpub. data). These immigrants bring their domestic animals with them, and thus may inadvertently contribute to the spread of T. cruzi infection. Our detection of T. cruzi in dogs from Toluca suggests that this city and others in Mexico located at high altitudes may not be free of T. cruzi infection. The seroprevalence of 21.0% (IgG and IgM) in dogs and the observed vectorial activity in these areas suggest that dogs may be domestic reservoir hosts and help maintain human transmission of T. cruzi. Our observations emphasize the importance of active epidemiologic surveillance programs throughout Mexico and implementation of sound vector control strategies in disease-endemic areas. Acknowledgments We thank Luis Alfonso Hernandez for continuous support during the course of this study; the personnel at ISEM for help with sample collection in the southern municipalities of the State of Mexico; the personnel of the Chagas Disease Laboratory at InDRE for technical assistance; and Mardelle Susman for editing and proofreading Proofreading traditionally means reading a proof copy of a text in order to detect and correct any errors. Modern proofreading often requires reading copy at earlier stages as well. the manuscript. This work was supported in part by National Institutes of Health grants AI053098-01 and AI054578-01 to N.G. and University Association for Emergency Medicine UAEM UAEM Universities Allied for Essential Medicines UAEM United Arab Emirates grant 2121/2005U to J.C.V.C.V.B. is supported by a postdoctoral fellowship from the Sealy Center of Vaccine Development at UTMB. References (1.) World Health Organization. Control of Chagas disease: second report of the WHO expert committee. UNDP/World Bank/WHO. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. : The Organization; 2002. (2.) Mazzotti L. Dos casos de enfermedad de chagas en el Estado de Oaxaca, Mexico. Gaceta Medica medica (māˑ·dē·k Mexico. 1940;70:417. (3.) Velasco-Castrejon O, Valdespino JL, Tapia-Conyer R, Salvatierra B, Guzman-Bracho C, Magos C, et al. Seroepidemiologia de la enfermedad de Chagas en Mexico. Salud Publica Mex. 1992;34:186-96. (4.) Guzman-Bracho C. Epidemiology of Chagas disease in Mexico: an update. Trends Parasitol. 2001;17:372-6. (5.) Guzman-Bracho C, Garcia-Garcia L, Floriani-Verdugo J, Guerrero Martinez S, Torres-Cosme M, Ramirez-Melgar C, et al. Risk of transmission of Trypanosoma cruzi by blood transfusion blood transfusion, transfer of blood from one person to another, or from one animal to another of the same species. Transfusions are performed to replace a substantial loss of blood and as supportive treatment in certain diseases and blood disorders. in Mexico. Rev Panam Salud Publica. 1998;4:94-9. (6.) Dumontiel E. Update of Chagas disease in Mexico. Salud Publica Mex. 1999;41:322-7. (7.) Mazariego-Arana MA, Monteon VM, Ballinas-Verdugo MA, Hernandez-Becerril N, Alejandre-Aguilar R, Reyes PA. Seroprevalence of human Trypanosoma cruzi infection in different geographic zones of Chiapas, Mexico. Rev Soc Bras Med Trop. 2001;34:453-8. (8.) Monteon-Padilla VM, Hernandez-Becerril N, Guzman-Bracho C, Rosales-Encina JL, Reyes-Lopez PA. American trypanosomiasis American trypanosomiasis a disease of humans caused by Trypanosoma cruzi in which many animal species can act as carriers. The disease in dogs includes anemia, debility and splenomegaly; in cats there are posterior paralysis and convulsions. (Chagas' disease Chagas' disease, disease of South and Central America caused by the parasite Trypanosoma cruzi. It usually affects children and young adults and is transmitted by the feces of infected insects, typically the assassin bug. ) and blood banking in Mexico City: seroprevalence and its potential transfusional transmission risk. Arch Med Res. 1999;30:393-8. (9.) Rangel-Flores H, Sanchez B, Mendoza-Duarte J, Barnabe C, Breniere FS, Ramos C, et al. 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Nivel de infestacion pot triatominos e indice de infeccion natural de Trypanosoma cruzi, prevaleciente en los municipios de Tejupilco, Amatepec, Tlatlaya, San Simon de Guerrero y Temascaltepec. Mexico Gaceta Medica. 2002;2:5-10. (13.) Gurtler RE, Cecere MC, Castanera MB, Canale D, Lauricella MA, Chuit R, et al. Probability of infection with Trypanosoma cruzi of the vector Triatoma injestans fed on infected humans and dogs in northwest Argentina. Am J Trop Med Hyg. 1996;55:24-31. (14.) Gurtler RE, Chuit R, Cecere MC, Castanera MB, Cohen cohen or kohen (Hebrew: “priest”) Jewish priest descended from Zadok (a descendant of Aaron), priest at the First Temple of Jerusalem. The biblical priesthood was hereditary and male. JE, Segura EL. Household prevalence of seropositivity for Trypanosoma cruzi in three rural villages in northwest Argentina: environmental, demographic, and entomologic associations. Am J Trop Med Hyg. 1998;59:741-9. (15.) Zavala-Velazquez J, Barrera-Perez M, Rodriguez-Felix ME, Guzman-Marin E, Ruiz-Pina H. Infection by Trypanosoma cruzi in mammals in Yucatan, Mexico: a serological serological pertaining to or emanating from serology. serological test one involving examination of blood serum usually for antibody. and parasitological parasitological pertaining to or emanating from parasitology. parasitological examination includes examination of feces for protozoa, worm eggs or larvae and for tapeworm segments, skin scrapings for arthropod parasites, blood study. Rev Inst Med Trop Sao Paulo. 1996;38:289-92. (16.) Salazar-Schettino PM, Bucio MI, Cabrera M, Bautista J. First case of natural infection in pigs. Review of Trypanosoma cruzi reservoirs in Mexico. Mem Inst Oswaldo Cruz Oswaldo Gonçalves Cruz, better know as Oswaldo Cruz (pron. IPA: [osvawdu cɾuz]), (b. August 5, 1872, São Luíz de Paraitinga, São Paulo state, Brazil; d. . 1997;92:499-502. (17.) Sosa-Jurado F, Zumaquero-Rios JL, Reyes PA, Cruz-Garcia A, Guzman-Bracho C, Monteon VM. Factores bioticos y abioticos que determinan la seroprevalencia de anticuerpos contra Typanosoma cruzi en el municipio de Palmar de Bravo, Puebla, Mexico. Salud Publica Mex. 2004;46:39-48. (18.) Castellani O, Ribeiro LV, Fernandes JF. Differentiation of Trypanosoma cruzi in culture. J Protozool. 1967;14:447-51. (19.) Plata F, Garcia Pons F, Eisen H. Antigenic polymorphism polymorphism, of minerals, property of crystallizing in two or more distinct forms. Calcium carbonate is dimorphous (two forms), crystallizing as calcite or aragonite. Titanium dioxide is trimorphous; its three forms are brookite, anatase (or octahedrite), and rutile. of Trypanosoma cruzi: clonal analysis of trypomastigote surface antigens. Eur J Immunol. 1984;14:392-9. (20.) Antas PR, Azevedo EN, Luz MR, Medrano-Mercado N, Chaves AC, Vidigal PG, et al. A reliable and specific enzyme-linked immunosorbent assay for the capture of IgM from human chagasic sera using fixed epimastigotes of Typanosoma cruzi. Parasitol Res. 2000;86:813-20. (21.) Bhatia V, Sinha M, Luxon B, Garg N. Utility of Trypanosoma cruzi sequence database for the identification of potential vaccine candidates: in silico in vitro in vitro /in vi·tro/ (in ve´tro) [L.] within a glass; observable in a test tube; in an artificial environment. in vi·tro adj. In an artificial environment outside a living organism. screening. Infect Immun. 2004;72:6245-54. (22.) Voller A, Draper C, Bidwell DE, Bartlett A. Microplate enzyme-linked immunosorbent assay for Chagas' disease. Lancet. 1975;1:426-8. (23.) Umezawa ES, Shikanai-Yasuda MA, Gruber A, Pereira-Chioccola VL, Zingales B. Trypanosoma cruzi defined antigens in the serological evaluation of an outbreak of acute Chagas disease in Brazil (Catole do Rocha, Paraiba). Meta Inst Oswaldo Cruz. 1996;91:87-93. (24.) Umezawa ES, Nascimento MS, Kesper N Jr, Coura JR, Borges-Pereira J, Junqueira AC, et al. Immunoblot assay using excreted-secreted antigens of Trypanosoma cruzi in serodiagnosis serodiagnosis /se·ro·di·ag·no·sis/ (-di?ag-no´sis) diagnosis of disease based on serologic tests.serodiagnos´tic se·ro·di·ag·no·sis n. pl. of congenital, acute, and chronic Chagas' disease. J Clin Microbiol. 1996;34:2143-7. (25.) Latour J, Abraira V, Cabello JB, Lopez Sanchez J. Investigation methods in clinical cardiology. IV. Clinical measurements in cardiology: validity and errors of measurements. Rev Esp Cardiol. 1997;50:117-28. (26.) Shadomy SV, Waring SC, Chappell CL. Combined use of enzyme-linked immunosorbent assay and flow cytometry to detect antibodies to Topanosoma cruzi in domestic canines in Texas. Clin Diagn Lab Immunol. 2004;11:313-9. (27.) Umezawa ES, Shikanai-Yasuda MA, Stolf AM. Changes in isotype composition and antigen recognition of anti-Trypanosoma cruzi antibodies from acute to chronic Chagas disease. J Clin Lab CLIN LAB Clinical Laboratory / Klinisches Labor (Journal) Anal. 1996;10:407-13. (28.) Wincker P, Telleria J, Bosseno MF, Cardoso MA, Marques Marques may refer to:
The scientific study of parasites and of parasitism. Parasitism is a subdivision of symbiosis and is defined as an intimate association between an organism (parasite) and another, larger species of organism (host) upon which the parasite is . 1997;114:367-73. (29.) Gurtler RE, Solard ND, Lauricela MA, Haedo AS, Pietrokovski SM, Alberti AA, et al. Dynamics of transmission of Trypanosoma cruzi in a rural area of Argentina. III. Persistence of Z cruzi parasitemia among canine reservoirs in a two-year follow-up. Rev Inst Med Trop Sao Paulo. 1986;28:213-9. (30.) Gurtler RE, Cohen JE, Cecere MC, Chuit R. Shifting host choices of the vector of chagas disease Triatoma in infestans and the availability of hosts in houses in north-west Argentina. Journal of Applied Ecology Applied ecology is a subfield within ecology which considers the application of the science of ecology to real-world (usually management) questions. It is also called ecological or environmental technology. . 1997;34:699-715. Jose G. Estrada-Franco, * (1) Vandanajay Bhatia, * (1) Hector Diaz-Albiter, ([dagger]) Laucel Ochoa-Garcia, ([dagger]) Alberto Barbabosa, ([double dagger]) Juan C. Vazquez-Chagoyan, ([double dagger]) Miguel A. Martinez-Perez, ([double dagger]) Carmen Carmen throws over lover for another. [Fr. Lit.: Carmen; Fr. Opera: Bizet, Carmen, Westerman, 189–190] See : Faithlessness Carmen the cards repeatedly spell her death. [Fr. Guzman-Bracho, ([section]) and Nisha Garg * * University of Texas Medical Branch, Galveston, Texas, USA; ([dagger]) Instituto de Salud del Estado de Mexico, Toluca, Mexico; ([double dagger]) Universidad Autonoma del Estado de Mexico, Toluca, Mexico; and ([section]) Instituto de Diagnostico y Referencia Epidemiologicos Secretaria de Salud, Mexico City, Mexico (1) These authors contributed equally to this article. Address for correspondence: Nisha Garg, Department of Microbiology and Immunology, University of Texas Medical Branch, 3.142 Medical Research Bldg, 30I University Blvd, Galveston, TX 77555, USA; fax: 409-747-6869; email: nigarg@utmb.edu Dr Estrada-Franco is an assistant professor at the University of Texas Medical Branch. His research interests include the ecology and epidemiology of vectorborne diseases, their human impact, vector genetics, and vector-host-pathogen interactions of arboviruses arboviruses (ar´bōvī´r  sz),n. and parasitic diseases.
Table 1. Prevalence of immunoglobulin G (IgG) antibodies to
Trypanosoma cruzi in persons in southern area of the State of
Mexico * ([dagger])
No. positive test Total screened
results ([double
dagger]) No. (%) % of population
0 321 (90.1)
1 22 (6.2)
2 7 (2.0) 98.3
3 1 (0.28)#
4 2 (0.56)#
5 3 (0.85)# 1.7#
Total 356 (100)
No. positive test Tejupilco
results ([double
dagger]) No. (%) % of population
0 268 (91.5)
1 14 (4.78)
2 5 (1.7) 97.95
3 1 (0.35)#
4 2 (0.68)#
5 3 (1.02)# 2.05#
Total 293 (100)
No. positive test Temascaltepec
results ([double
dagger]) No. (%) % of population
0 55 (87.31)
1 6 (9.52)
2 2 (3.17) 100
3 0
4 0
5 0 0.0
Total 63 (100)
Note: Samples positive in [greater than or equal to] 3 tests were
considered seropositive indicated with a #.
* Samples positive in [greater than or equal to] 3 tests were
considered seropositive (shown in boldface).
([dagger]) All except 2 participants seropositive for IgG antibodies by
[greater than or equal to] 2 tests were 5-18 y of age.
([double dagger]) Level of agreement for serologic data for 5 tests:
concordance level 98.2; [kappa] coefficient 0.618; 95% confidence
interval 0.622-0.714.
Table 2. Prevalence of antibodies to Trypanosoma cruzi in persons
in southern area of the State of Mexico *
Seroposi-
tivity
([dagger]),
no.
Municipality Village Altitude (m) No. screened
Tejupilco El Carmen Ixtapan 1,091 16
El Puerto del Salitre 1,268 29
Zacatepec 1,311 200
Rio Grande 1,554 3
Teneria 1,730 45
Subtotal 293
Temascaltepec La Cominidad 2,500 63
Seropositivity
([dagger]), no.
IgM positive
([double
Municipality Village IgG positive dagger])
Tejupilco El Carmen Ixtapan 1 (6.3) 3 (18.7)
El Puerto del Salitre 3 (10.3) ND
Zacatepec 2 (1.0) 10 (5.0)
Rio Grande 0 ND
Teneria 0 3 (6.6)
Subtotal 6 (2.05) 16 (5.5)
Temascaltepec La Cominidad 0 1 (1.6)
Seroposi-
tivity
([dagger]),
no.
IgG and IgM
Municipality Village positive
Tejupilco El Carmen Ixtapan 4 (25.0)
El Puerto del Salitre 3 (10.3)
Zacatepec 11 (5.5)
Rio Grande 0
Teneria 3 (6.6)
Subtotal 21 (7.1)
Temascaltepec La Cominidad 1 (1.6)
* IgG, immunoglobulin G.
([dagger]) p<0.001 for IgG, IgM, and IgG plus IgM seropositivity.
([double dagger]) All IgM-seropositive persons were 4-13 y of age.
ND, not determined.
Table 3. Prevalence of antibodies to Trypanosoma cruzi in dogs in
the southern area of the State of Mexico
Seroposi-
tivity, *
no. (%)
IgG positive
Municipality Village No. screened ([dagger])
Tejupilco El Carmen Ixtapan 16 5 (31.3)
Rincon del Carmen 42 10 (23.8)
Rio Grande 24 1 (4.2)
Tejupilco 10 1 (10.0)
Zacatapec 22 1 (4.5)
Subtotal 114 18 (15.8)
Toluca 80 8 (10.0)
Northern area 24 0
([section])
Chiapas 28 11 (39.3)
Seropositivity, * no. (%)
IgM positive
([double IgG and IgM
Municipality Village dagger]) positive
Tejupilco El Carmen Ixtapan 0 5 (31.3)
Rincon del Carmen 13 (30.9) 16 (38.0)
Rio Grande 0 1 (4.2)
Tejupilco 0 1 (10.0)
Zacatapec 0 1 (4.5)
Subtotal 13 (11.4) 24 (21.0)
Toluca 12 (15.0) 14 (17.5)
Northern area 0 0
([section])
Chiapas 4 (14.3) 12 (42.8)
* IgG, immunoglobulin G. p<0.001 for IgG, IgM, and IgG plus IgM
seropositivity.
([dagger]) IgG-seropositive dogs were 8 mo to 6 y of age; 85% were
[greater than or equal to] 2 y of age.
([double dagger]) IgM-seropositive dogs were 4 months to 6 years of
age; a similar distribution was observed in all age groups.
([section]) Northern villages of Apaxco, Hueypoxita, Jaltenco, and
Nextlalpan were included in this group.
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