Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-23T11:08:03.812Z Has data issue: false hasContentIssue false
  • English
  • Français

Domestic dogs and cats as sources of Trypanosoma cruzi infection in rural northwestern Argentina

Published online by Cambridge University Press:  11 October 2006

R. E. GÜRTLER ,
M. C. CECERE ,
M. A. LAURICELLA ,
M. V. CARDINAL ,
U. KITRON  and
J. E. COHEN
R. E. GÜRTLER
Affiliation:
Laboratorio de Eco-Epidemiología, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires, Argentina
M. C. CECERE
Affiliation:
Laboratorio de Eco-Epidemiología, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires, Argentina
M. A. LAURICELLA
Affiliation:
Instituto Nacional de Parasitología “Dr. Mario Fatala Chaben”, Paseo Colón 568, 1032 Buenos Aires, Argentina
M. V. CARDINAL
Affiliation:
Laboratorio de Eco-Epidemiología, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires, Argentina
U. KITRON
Affiliation:
Division of Epidemiology and Preventive Medicine, Department of Veterinary Pathobiology, University of Illinois, Urbana-Champaign, 2001 South Lincoln Avenue, Urbana, IL 61802, USA
J. E. COHEN
Affiliation:
Laboratory of Populations, Rockefeller and Columbia Universities, 1230 York Ave. Box 20, New York NY 10021-6399, USA
Get access Rights & Permissions [Opens in a new window]

Abstract

The reservoir capacity of domestic cats and dogs for Trypanosoma cruzi infection and the host-feeding patterns of domestic Triatoma infestans were assessed longitudinally in 2 infested rural villages in north-western Argentina. A total of 86 dogs and 38 cats was repeatedly examined for T. cruzi infection by serology and/or xenodiagnosis. The composite prevalence of infection in dogs (60%), but not in cats, increased significantly with age and with the domiciliary density of infected T. infestans. Dogs and cats had similarly high forces of infection, prevalence of infectious hosts (41–42%), and infectiousness to bugs at a wide range of infected bug densities. The infectiousness to bugs of seropositive dogs declined significantly with increasing dog age and was highly aggregated. Individual dog infectiousness to bugs was significantly autocorrelated over time. Domestic T. infestans fed on dogs showed higher infection prevalence (49%) than those fed on cats (39%), humans (38%) or chickens (29%) among 1085 bugs examined. The basic reproduction number of T. cruzi in dogs was at least 8·2. Both cats and dogs are epidemiologically important sources of infection for bugs and householders, dogs nearly 3 times more than cats.

Keywords

surveillancehost-feedingincidencetriatomine bugsChagas diseaseTrypanosoma cruziTriatoma infestansdogscatsinfectiousness
Type
Research Article
Information
Parasitology , Volume 134 , Issue 1 , January 2007 , pp. 69 - 82
Copyright
© 2006 Cambridge University Press

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Alencar, J. E., Almeida, Y. M., Santos, A. R. and Freitas, L. M. ( 1974/1975). Epidemiology of Chagas' disease in the state of Ceará, Brazil. IV. The role of dogs and cats as domestic reservoirs. Revista Brasileira de Malariología e Doenças Tropicales 26/27, 526.Google Scholar
Araújo, F. M. G., Bahia, M. T., Magalhães, N. M., Martins-Filho, O. A., Veloso, V. M., Carneiro, C. M., Tafuri, W. L. and Lana, M. ( 2002). Follow-up of experimental chronic Chagas' disease in dogs: use of polymerase chain reaction (PCR) compared with parasitological and serological methods. Acta Tropica 81, 2131.CrossRefGoogle Scholar
Barretto, M. P. ( 1968). Estudos sôbre reservatórios e vectores silvestres do “Trypanosoma cruzi”. XXXI. Observações sôbre a associação entre reservatórios e vectores, com especial referência à região nordeste do Estado de Sao Paulo. Revista Brasileña Biología 28, 481494.Google Scholar
Basombrío, M. A., Segura, M. A., Mora, M. C. and Gomez, L. ( 1993). Field trial of vaccination against American trypanosomiasis (Chagas' disease) in dogs. American Journal of Tropical Medicine and Hygiene 49, 143151.CrossRefGoogle Scholar
Beard, C. B., Pye, G., Steurer, F. J., Rodriguez, R., Campman, R., Peterson, A. T., Ramsey, J., Wirtz, R. A. and Robinson, L. E. ( 2003). Chagas disease in a domestic transmission cycle, southern Texas, USA. Emerging Infectious Diseases 9, 103105.CrossRefGoogle Scholar
Cabeza Meckert, P. and Laguens, R. P. ( 1981). Chronic Chagas' disease in the mouse. III. Absence of concomitant immunity after repeated infections. Medicina 41, 543548.Google Scholar
Castañera, M. B., Lauricella, M. A., Chuit, R. and Gürtler, R. E. ( 1998). Evaluation of dogs as sentinels of the transmission of Trypanosoma cruzi in a rural area of north-west Argentina. Annals of Tropical Medicine and Parasitology 92, 671683.CrossRefGoogle Scholar
Catalá, S. S., Crocco, L. B., Muñoz, A., Morales, G., Paulone, I., Giraldez, E., Candioti, C. and Ripol, C. ( 2004). Entomological aspects of Chagas' disease transmission in the domestic habitat, Argentina. Revista Saúde Pública 38, 216222.CrossRefGoogle Scholar
Cecere, M. C., Gürtler, R. E., Canale, D., Chuit, R. and Cohen, J. E. ( 1998). Factors limiting the domiciliary density of Triatoma infestans, vector of Chagas' disease, in north-west Argentina: a longitudinal study. Bulletin of the World Health Organization 76, 373384.Google Scholar
Cerisola, J. A., Rohwedder, R., Segura, E. L., Del Prado, C. E., Alvarez, M. and Wynne de Martini, G. J. ( 1974). El Xenodiagnóstico. Monografía. Ministerio de Bienestar Social, Secretaría de Estado de Salud Pública, pp. 1127.
Cleaveland, S. and Dye, C. ( 1995). Maintenance of a microparasite infecting several host species: rabies in the Serengeti. Parasitology 111, S33S47.CrossRefGoogle Scholar
Cohen, J. E. and Gürtler, R. E. ( 2001). Modeling household transmission of American Trypanosomiasis. Science 29, 694698.CrossRefGoogle Scholar
Courtenay, O., Quinnell, R. J., Garcez, L. M., Shaw, J. J. and Dye, C. ( 2002). Infectiousness in a cohort of brazilian dogs: why culling fails to control visceral leishmaniasis in areas of high transmission. Journal of Infectious Diseases 186, 13141320.CrossRefGoogle Scholar
Dias, J. C. P., Silveira, A. C. and Schofield, C. J. ( 2002). The impact of Chagas disease control in Latin America – A review. Memorias do Instituto Oswaldo Cruz 97, 603612.CrossRefGoogle Scholar
Freitas, J. L. P. ( 1950). Observações sobre xenodiagnósticos practicados em reservatórios domésticos e silvestres do Trypanosoma cruzi em uma localidade endémica da moléstia de Chagas no Estado de São Paulo. Hospital 38, 521529.Google Scholar
Gürtler, R. E., Kravetz, F. O., Petersen, R. M., Lauricella, M. A. and Wisnivesky-Colli, C. ( 1990). The prevalence of Trypanosoma cruzi and the demography of dog populations after insecticidal spraying of houses: a predictive model. Annals of Tropical Medicine and Parasitology 84, 313323.CrossRefGoogle Scholar
Gürtler, R. E., Petersen, R. M., Lauricella, M. A. and Wisnivesky-Colli, C. ( 1992 a). Infectivity to the vector Triatoma infestans of dogs infected with Trypanosoma cruzi in north-west Argentina. Annals of Tropical Medicine and Parasitology 86, 111119.Google Scholar
Gürtler, R. E., Cecere, M. C., Rubel, D. N. and Schweigmann, N. J. ( 1992 b). Determinants of the domiciliary density of Triatoma infestans, vector of Chagas disease. Medical and Veterinary Entomology 6, 7583.Google Scholar
Gürtler, R. E., Cécere, M. C., Petersen, R. M., Rubel, D. N. and Schweigmann, N. J. ( 1993). Chagas disease in north-west Argentina: association between Trypanosoma cruzi parasitaemia in dogs and cats and infection rates in domestic Triatoma infestans. Transactions of the Royal Society of Tropical Medicine and Hygiene 87, 1215.CrossRefGoogle Scholar
Gürtler, R. E., Cecere, M. C., Castañera, M. B., Canale, D., Lauricella, M. A., Chuit, R., Cohen, J. E. and Segura, E. L. ( 1996). Probability of infection with Trypanosoma cruzi of the vector Triatoma infestans fed on infected humans and dogs in northwest Argentina. American Journal of Tropical Medicine and Hygiene 55, 2431.CrossRefGoogle Scholar
Gürtler, R. E., Cohen, J. E., Cecere, M. C. and Chuit, R. ( 1997). Shifting host choices of the vector of Chagas disease Triatoma infestans in relation to the availability of hosts in houses in north-west Argentina. Journal of Applied Ecology 34, 699715.CrossRefGoogle Scholar
Gürtler, R. E., Chuit, R., Cecere, M. C., Castañera, M. B., Cohen, J. E. and Segura, E. L. ( 1998). Household prevalence of seropositivity for Trypanosoma cruzi in three rural villages of northwest Argentina: environmental, demographic and entomologic associations. American Journal of Tropical Medicine and Hygiene 59, 741749.CrossRefGoogle Scholar
Gürtler, R. E., Cecere, M. C., Lauricella, M. A., Petersen, R. M., Chuit, R., Segura, E. L. and Cohen, J. E. ( 2005). Incidence of Trypanosoma cruzi infection among children following domestic reinfestation after insecticide spraying in rural northwestern Argentina. American Journal of Tropical Medicine and Hygiene 73, 95103.Google Scholar
Kilpatrick, A. M., Kramer, L. D., Campbell, S. R., Alleyne, E. O., Dobson, A. P. and Daszak, P. ( 2005). West Nile virus risk assessment and the bridge vector paradigm. Emerging Infectious Diseases 11, 425429.CrossRefGoogle Scholar
Kirk, M. L. and Schofield, C. J. ( 1987). Density-dependent timing of defaecation by Rhodnius prolixus, and its implications for the transmission of Trypanosoma cruzi. Transactions of the Royal Society of Tropical Medicine and Hygiene 81, 348349.CrossRefGoogle Scholar
Lauricella, M. A., Riarte, A. R., Lazzari, J. O., Barousse, A. P. and Segura, E. L. ( 1986). Enfermedad de Chagas en perros experimentalmente infectados con Trypanosoma cruzi. Medicina 46, 195200.Google Scholar
Lauricella, M. A., Sinagra, A. J., Paulone, I., Riarte, A. R. and Segura, E. L. ( 1989). Natural Trypanosoma cruzi infection in dogs of endemic areas of the Argentine Republic. Revista do Instituto de Medicina Tropical de São Paulo 31, 6370.CrossRefGoogle Scholar
Lauricella, M. A., Castañera, M. B., Gürtler, R. E. and Segura, E. L. ( 1998). Immunodiagnosis of Trypanosoma cruzi (Chagas' Disease) infection in naturally infected dogs. Memorias do Instituto Oswaldo Cruz 93, 501507.CrossRefGoogle Scholar
Lloyd-Smith, J. O., Schreiber, S. J., Kopp, P. E. and Getz, W. M. ( 2005). Superspreading and the effect of individual variation on disease emergence. Nature, London 438, 355359.CrossRefGoogle Scholar
Machado, E. M. M., Fernandes, A. J., Murta, S. M. F., Vitor, R. W. A., Camilo, D. J. Jr., Pinheiro, S. W., Lopes, E. R., Adad, S. J., Romanha, A. J. and Pinto Dias, J. C. ( 2001). A study of experimental reinfection by Trypanosoma cruzi in dogs. American Journal of Tropical Medicine and Hygiene 65, 958965.CrossRefGoogle Scholar
Maguire, J. H., Mott, K. E., Hoff, R., Guimaraes, A., Franca, J. T., Souza, J. A. A., Ramos, N. B. and Sherlock, I. A. ( 1982). A three-year follow-up study of infection with Trypanosoma cruzi and electrocardiographic abnormalities in a rural community in northeast Brazil. American Journal of Tropical Medicine and Hygiene 31, 4247.CrossRefGoogle Scholar
Marcet, P. L., Duffy, T., Cardinal, M. V., Burgos, J. M., Lauricella, M. A., Levin, M. J., Kitron, U., Gürtler, R. E. and Schijman, A. G. ( 2006). PCR-based identification of Trypanosoma cruzi lineages in feces of triatomine bugs from rural northwestern Argentina. Parasitology 132, 19.Google Scholar
Mayer, H. F. and Alcaraz, I. ( 1954). Investigaciones sobre esquizotripanosis en perros y gatos de la zona suburbana de Resistencia. Anales Instituto de Medicina Regional de Tucumán 4, 917.Google Scholar
Mazza, S. ( 1934). Difusión de la infección natural por S. cruzi en perros de la Provincia de Jujuy. Misión de Estudios de Patología Regional Argentina 17, 2328.Google Scholar
Mazza, S. and Jörg, M. E. ( 1936). Infección natural mortal por S. cruzi en cachorro de perro “Pila” de Jujuy. In 9na. Reunión de la Sociedad Argentina de Patología Regional del Norte (Mendoza, October 1–4, 1935) 1, 365411.Google Scholar
Minter, D. M. ( 1976). Effects on transmission to man of the presence of domestic animals in infected households. In New Approaches in American Trypanosomiasis Research, pp. 330337. Pan American Health Organization Scientific Publication No. 318, Washington DC.
Mott, K. E., Muniz, T. M., Lehman, J. S. Jr., Hoff, R., Morrow Jr., R. H., Oliveira, T. S., SherlocK, I. A. and Draper, C. C. ( 1978). House construction, triatomine distribution and household distribution of seroreactivity to Trypanosoma cruzi in a rural community in northeast Brazil. American Journal of Tropical Medicine and Hygiene 27, 11161122.CrossRefGoogle Scholar
Muench, H. ( 1959). Catalytic Models in Epidemiology. Harvard University Press, Cambridge, MA, USA.CrossRef
Petersen, R. M., Gürtler, R. E., Cecere, M. C., Rubel, D. N., Hansen, D., Lauricella, M. A. and Carlomagno, M. ( 2001). Association between nutritional indicators of dogs seroreactive for Trypanosoma cruzi in a rural area of northwestern Argentina. Parasitology Research 87, 208214.CrossRefGoogle Scholar
Piesman, J., Sherlock, I. A. and Christensen, H. A. ( 1983). Host availability limits population density of Panstrongylus megistus. American Journal of Tropical Medicine and Hygiene 32, 14451450.CrossRefGoogle Scholar
Quinnell, R. J., Courtenay, O., Garcez, L. and Dye, C. ( 1997). The epidemiology of canine leishmaniasis: transmission rates estimated from a cohort study in Amazonian Brazil. Parasitology 115, 143156.CrossRefGoogle Scholar
Rabinovich, J. E. and Himschoot, P. ( 1990). A population-dynamics simulation model of the main vectors of Chagas' disease transmission, Rhodnius prolixus and Triatoma infestans. Ecological Modelling 52, 249266.CrossRefGoogle Scholar
Reithinger, R., Ceballos, L. A., Stariolo, R., Davies, C. R. and Gürtler, R. E. ( 2005). Chagas disease control: deltamethrin-treated collars reduce Triatoma infestans feeding success on dogs. Transactions of the Royal Society of Tropical Medicine and Hygiene 99, 502508.CrossRefGoogle Scholar
Riarte, A., Sinagra, A., Lauricella, M., Bolomo, N., Moreno, M., Cossio, P., Arana, R. and Segura, E. L. ( 1995). Chronic experimental infection by Trypanosoma cruzi in Cebus apella monkeys. Memorias do Instituto Oswaldo Cruz 90, 733740.CrossRefGoogle Scholar
Schenone, H., Christensen, H. A., Vásquez, A. M., González, C., Méndez, E., Rojas, A. and Villarroel, F. ( 1985). Fuentes de alimentación de triatomas domésticos y su implicancia epidemiológica en relación a enfermedad de Chagas en áreas rurales de siete regiones de Chile. Boletín Chileno de Parasitología 40, 3438.Google Scholar
Williams, G. D., Garry Adams, L., Yaeger, R. G., McGrath, R. K., Read, W. K. and Bilderback, W. R. ( 1977). Naturally occurring Trypanosomiasis (Chagas Disease) in dogs. Journal of the American Veterinary Medical Association 171, 171177.Google Scholar
Wilson, K., Bjørnstad, O. N., Dobson, A. P., Merler, S., Poglayen, G., Randolph, S. E., Read, A. F. and Skoping, A. ( 2001). Heterogeneities in macroparasite infections: patterns and processes. In The Ecology of Wildlife Diseases ( ed. Hudson, P. J., Rizzoli, A., Grenfell, B. T., Heesterbeek, H. and Dobson, A. P.), pp. 644. Oxford University Press, Oxford, UK.
Wisnivesky-Colli, C., Gürtler, R. E., Solarz, N. D., Salomón, D. O. and Ruiz, A. M. ( 1982). Feeding patterns of Triatoma infestans (Hemiptera, Reduviidae) in relation to transmission of American Trypanosomiasis in Argentina. Journal of Medical Entomology 19, 645654.CrossRefGoogle Scholar
Wisnivesky-Colli, C., Gürtler, R. E., Solarz, N. D., Lauricella, M. A. and Segura, E. L. ( 1985). Epidemiological role of humans, dogs and cats in the transmission of Trypanosoma cruzi in a central area of Argentina. Revista do Instituto de Medicina Tropical de São Paulo 27, 346352.CrossRefGoogle Scholar
Woolhouse, M. E. J., Dye, C., Etard, J. F., Smith, T., Charlewood, J. D., Garnett, G. P., Hagan, P., Hii, J. L. K., Ndhlovu, P. D., Quinnell, R. J., Watts, C. H., Chandiwana, S. K. and Anderson, R. M. ( 1997). Heterogeneities in the transmission of infectious agents: implications for the design of control programs. Proceedings of the National Academy of Sciences, USA 94, 338342.CrossRefGoogle Scholar
WORLD HEALTH ORGANIZATION ( 1988). Report of WHO consultation on dog ecology studies related to rabies control. Geneva, 22–25 February 1988. WHO/Rabies Research/88.25 (mimeographed document).
Zárate, L. G., Zárate, R. J., Tempelis, C. H. and Goldsmith, R. S. ( 1980). The biology and behavior of Triatoma barberi (Hemiptera: Reduviidae) in Mexico. I. Blood meal sources and infection with Trypanosoma cruzi. Journal of Medical Entomology 17, 103116.Google Scholar