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Mathematical Biosciences(2)
Dengue Bulletin(1)
Emerging Infectious Diseases(1)
Epidemiology and Infection(1)
Journal of Theoretical Biology(1)
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Medicina forense; incidencia de enfermedades(7)
Problemas sociales y servicios a grupos(4)
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scopus(9)
Clinical diagnostic delays and epidemiology of dengue fever during the 2002 outbreak in Colima, Mexico
ArticleAbstract: Dengue fever is a re-emergent and challenging public health problem in the world. Here, we assess rePalabras claves:Clinical diagnostic delay, Colima, Dengue fever, Haemorrhagic, MÉXICOAutores:Carlos Castillo-Chávez, Ceja-Espíritu G., Chowell D., Chowell-Puente G., Diaz-Dueñas P., Hews S., Hyman J.M.Fuentes:scopusEffects of behavioral changes in a smallpox attack model
ArticleAbstract: The impact of individual and community behavioral changes in response to an outbreak of a disease wiPalabras claves:Behavioral changes, Isolation, mathematical model, Quarantine, Sensitivity Analysis, Smallpox, VaccinationAutores:Carlos Castillo-Chávez, Del Valle S.Y., Hethcote H.W., Hyman J.M.Fuentes:scopusEstimation of the reproduction number of dengue fever from spatial epidemic data
ArticleAbstract: Dengue, a vector-borne disease, thrives in tropical and subtropical regions worldwide. A retrospectiPalabras claves:Colima, DENGUE, Dengue hemorrhagic fever, mathematical model, MÉXICO, Reproduction number, Spatial epidemic data, Stage progressionAutores:Alcazar-Velazco A., Carlos Castillo-Chávez, Chowell-Puente G., Diaz-Dueñas P., Fenimore P.W., Hyman J.M., Miller J.Fuentes:scopusOpinion: Mathematical models: a key tool for outbreak response
OtherAbstract:Palabras claves:Autores:Alexander K.A., Drake J.M., Eisenberg M.C., Eubank S., Ferrari M.J., Halloran M.E., Hyman J.M., Joseph Neil Spindel Eisenberg, Lewis B., Lofgren E.T., Marathe M.V., Meyers L.A., Meza R., Porco T.C., Rivers C.M., Scarpino S.V., Shaman J., Vespignani A., Yang W.Fuentes:scopusModel parameters and outbreak control for SARS
ArticleAbstract: Control of the 2002-2003 severe acute respiratory syndrome (SARS) outbreak was based on rapid diagnoPalabras claves:Autores:Arriola L., Carlos Castillo-Chávez, Chowell-Puente G., Fenimore P.W., Hyman J.M., Zaleta C.K.Fuentes:scopusModelling the transmission dynamics of acute haemorrhagic conjuctivitis: Application to the 2003 outbreak in Mexico
ArticleAbstract: We model an outbreak of acute haemorrhagic conjunctivitis (AHC) using a simple epidemic model that iPalabras claves:Acute haemorrhagic conjuctivitis, Epidemic model, Parameter estimation, Parameter identifiability, Reproductive number, UnderreportingAutores:Brauer F., Carlos Castillo-Chávez, Chowell-Puente G., Diaz-Dueñas P., Hyman J.M., Shim E.Fuentes:scopusSpatial and temporal dynamics of dengue fever in Peru: 1994-2006
ArticleAbstract: The weekly number of dengue cases in Peru, South America, stratified by province for the period 1994Palabras claves:Autores:Carlos Castillo-Chávez, Chowell-Puente G., Hyman J.M., López-Cruz R., Munayco-Escate C., Suárez-Ognio L., Torre C.A.Fuentes:scopusThe basic reproductive number of Ebola and the effects of public health measures: The cases of Congo and Uganda
ArticleAbstract: Despite improved control measures, Ebola remains a serious public health risk in African regions whePalabras claves:Congo, Ebola, interventions, Outbreak, Reproductive number, UgandaAutores:Carlos Castillo-Chávez, Chowell-Puente G., Fenimore P.W., Hengartner N., Hyman J.M.Fuentes:scopusThe role of spatial mixing in the spread of foot-and-mouth disease
ArticleAbstract: A model of epidemic dispersal (based on the assumption that susceptible cattle were homogeneously miPalabras claves:foot-and-mouth disease, Movement restrictions, Reproductive number, Spatial mathematical model, URUGUAYAutores:Carlos Castillo-Chávez, Chowell-Puente G., Hengartner N., Hyman J.M., Rivas A.L.Fuentes:scopus