RESUMEN
Aborda as mudanças ocorridas nas práticas da profilaxia marítima brasileira. Por meio de dois casos de navios de imigrantes, que chegaram ao porto do Rio de Janeiro com epidemias a bordo, são analisados a compreensão sobre a etiologia, a forma de prevenção e o combate às três doenças com regulamentação portuária internacional: febre amarela, peste bubônica e cólera. Até o final do século XIX, uma das principais práticas de profilaxia era a quarentena. No início do XX, identificamos a emergência do ideário da microbiologia e dos vetores no serviço sanitário dos portos. A quarentena, que já vinha sendo criticada como antiquada e ineficaz, é limitada a alguns casos, e novos métodos e tecnologias da higiene passam a ser aplicados na defesa sanitária dos portos.
We address the changes in Brazilian maritime prophylaxis by studying two cases of immigrant ships arriving at the port of Rio de Janeiro with epidemics onboard. The objective is to understand the etiology, means of prevention and methods used to combat the three diseases subject to international port regulations: yellow fever, bubonic plague and cholera. Until the late nineteenth century, quarantines were one of the main disease prevention practices. In the early twentieth century, microbiology and the concept of vectors in ports sanitation services emerged. Quarantines, which were already being criticized as antiquated and ineffective, were limited to a few cases, and new hygiene methods and technologies began to be applied in port sanitary defense.
Asunto(s)
Humanos , Historia del Siglo XIX , Historia del Siglo XX , Salud Pública/historia , Peste/etiología , Peste/prevención & control , Fiebre Amarilla/etiología , Fiebre Amarilla/prevención & control , Brasil , Cuarentena , Cólera/etiología , Cólera/prevención & control , Historia del Siglo XIX , Historia del Siglo XX , Emigración e InmigraciónRESUMEN
Yersinia pestis, the causative agent of plague, has been detected in fleas and mammals throughout the western United States. This highly virulent infection is rare in humans, surveillance of the disease is expensive, and it often was assumed that risk of exposure to Y. pestis is high in most of the western United States. For these reasons, some local health departments in these plague-affected regions have hesitated to undertake surveillance and other prevention activities. To aid in targeting limited public health resources, we created a fine-resolution human plague risk map for New Mexico, the state reporting more than half the human cases in the United States. Our GIS-based model included three landscape features-a nonlinear relationship with elevation, distance to water, and distance to the ecotone between Rocky Mountain/Great Basin open and closed coniferous woodlands-and yielded an overall accuracy of approximately 80%. The model classified 17.25% of the state as posing significant risk of exposure to humans on privately or tribally owned land, which suggests that resource requirements for regular surveillance and control of plague could be effectively focused on < 20% of the state.