ABSTRACT
We discuss the complex eco-social factors involved in the puzzle of the unexpected rapid viral spread in the ongoing Brazilian yellow fever (YF) outbreak, which has increased the reurbanisation risk of a disease without urban cases in Brazil since 1942. Indeed, this rapid spatial viral dissemination to the Southeast and South regions, now circulating in the Atlantic Forest fragments close to peri-urban areas of the main Brazilian megalopolises (São Paulo and Rio de Janeiro) has led to an exponential increase in the number of yellow fever cases. In less than 18 months, 1,833 confirmed cases and 578 deaths were recorded most of them reported in the Southeast region (99,9%). Large epizooties in monkeys and other non-human primates (NHPs) were communicated in the country with 732 YF virus (YFV) laboratory confirmed events only in the 2017/2018 monitoring period. We also discuss the peculiarities and similarities of the current outbreak when compared with previous great epidemics, examining several hypotheses to explain the recent unexpected acceleration of epizootic waves in the sylvatic cycle of the YFV together with the role of human, NHPs and mosquito mobility with respect to viral spread. We conclude that the most feasible hypothesis to explain this rapidity would be related to human behavior combined with ecological changes that promoted a significant increase in mosquito and NHP densities and their contacts with humans. We emphasize the urgent need for an adequate response to this outbreak such as extending immunisation coverage to the whole Brazilian population and developing novel strategies for immunisation of NHPs confined in selected reserve areas and zoos. Finally, we stress the urgent need to improve the quality of response in order to prevent future outbreaks and a catastrophic reurbanisation of the disease in Brazil and other South American countries. Continuous monitoring of YFV receptivity and vulnerability conditions with effective control of the urban vector Aedes aegypti and significant investments in YF vaccine production capacity and research and development for reduction of adverse effects are of the highest priority.
Subject(s)
Aedes/virology , Disease Outbreaks/statistics & numerical data , Yellow Fever/epidemiology , Yellow fever virus/genetics , Animals , Brazil/epidemiology , Disease Outbreaks/veterinary , Evolution, Molecular , Humans , Population Density , Primate Diseases/virology , Urbanization , Yellow Fever/transmission , Yellow Fever/veterinary , Yellow Fever Vaccine , Yellow fever virus/immunologyABSTRACT
We discuss the complex eco-social factors involved in the puzzle of the unexpected rapid viral spread in the ongoing Brazilian yellow fever (YF) outbreak, which has increased the reurbanisation risk of a disease without urban cases in Brazil since 1942. Indeed, this rapid spatial viral dissemination to the Southeast and South regions, now circulating in the Atlantic Forest fragments close to peri-urban areas of the main Brazilian megalopolises (São Paulo and Rio de Janeiro) has led to an exponential increase in the number of yellow fever cases. In less than 18 months, 1,833 confirmed cases and 578 deaths were recorded most of them reported in the Southeast region (99,9%). Large epizooties in monkeys and other non-human primates (NHPs) were communicated in the country with 732 YF virus (YFV) laboratory confirmed events only in the 2017/2018 monitoring period. We also discuss the peculiarities and similarities of the current outbreak when compared with previous great epidemics, examining several hypotheses to explain the recent unexpected acceleration of epizootic waves in the sylvatic cycle of the YFV together with the role of human, NHPs and mosquito mobility with respect to viral spread. We conclude that the most feasible hypothesis to explain this rapidity would be related to human behavior combined with ecological changes that promoted a significant increase in mosquito and NHP densities and their contacts with humans. We emphasize the urgent need for an adequate response to this outbreak such as extending immunisation coverage to the whole Brazilian population and developing novel strategies for immunisation of NHPs confined in selected reserve areas and zoos. Finally, we stress the urgent need to improve the quality of response in order to prevent future outbreaks and a catastrophic reurbanisation of the disease in Brazil and other South American countries. Continuous monitoring of YFV receptivity and vulnerability conditions with effective control of the urban vector Aedes aegypti and significant investments in YF vaccine production capacity and research and development for reduction of adverse effects are of the highest priority.
Subject(s)
Humans , Yellow Fever/diagnosis , Yellow Fever/therapy , Yellow Fever/transmission , Immunization/methods , AedesABSTRACT
AbstractOropouche virus (OROV) is an important cause of arboviral illness in Latin American countries, more specifically in the Amazon region of Brazil, Venezuela and Peru, as well as in other countries such as Panama. In the past decades, the clinical, epidemiological, pathological, and molecular aspects of OROV have been published and provide the basis for a better understanding of this important human pathogen. Here, we describe the milestones in a comprehensive review of OROV epidemiology, pathogenesis, and molecular biology, including a description of the first isolation of the virus, the outbreaks during the past six decades, clinical aspects of OROV infection, diagnostic methods, genome and genetic traits, evolution, and viral dispersal.
Subject(s)
Bunyaviridae Infections/epidemiology , Disease Outbreaks , Genome, Viral , Genotype , Orthobunyavirus/genetics , Animals , Birds/virology , Brazil/epidemiology , Bunyaviridae Infections/diagnosis , Bunyaviridae Infections/physiopathology , Bunyaviridae Infections/transmission , Ceratopogonidae/virology , Chromosome Mapping , Culex/virology , Disease Vectors , Humans , Orthobunyavirus/classification , Orthobunyavirus/isolation & purification , Panama/epidemiology , Peru/epidemiology , Sloths/virology , Venezuela/epidemiologySubject(s)
Communicable Diseases , Onchocerciasis , Snake Bites , Tuberculosis , Schistosomiasis mansoni , Hepatitis D , Leishmaniasis , Parvovirus B19, Human , Fish Venoms , Hepatitis B , Leptospirosis , Malaria , Ankylosis , Mycoses , Cholera , Chagas Disease , Leprosy , Deltaretrovirus Infections , Parvoviridae InfectionsABSTRACT
Surveillance for Enterovirus 71 (EV-71) infection in children up to 15 years of age was carried out in Brazil, from 1988 to 1990. Patients with acute neurological diseases (AND) such as flaccid paralysis, Bell's palsy, acute cerebellar ataxia and Guillain-Barré syndrome were included in the study. EV-71 infection was detected in 24 of 426 children (5.6%) with AND. EV-71 infection was confirmed only by virus isolation in 13 children, by virus isolation and seroconversion in 4, and by seroconversion alone in 7. EV-71 was also isolated from 15 of the 427 household contacts (3.5%) of 165 AND patients. There was some evidence of high infectivity of EV-71: household clusters were detected in the case of 7 of 24 children (29.1%) infected with EV-71 and manifesting AND; EV-71 was isolated from 11/40 household contacts (27.5%) of the infected patients but from only 4/387 household contacts (1.0%) of children in whom it was not possible to demonstrate EV-71 infection. Seven of the 24 children infected with EV-71 exhibited residual motor deficiency when examined 6 months after the disease onset. The relevance of these results for the Plan for Global Eradication of Wild Poliovirus is discussed, as well as the need to increase knowledge about the behaviour of this virus and its possible association with AND
Subject(s)
Humans , Child , Enterovirus A, Human , Epidemiology , Poliomyelitis , BrazilSubject(s)
Arbovirus Infections , Bunyaviridae Infections , Encephalitis Virus, Eastern Equine , Encephalitis, St. Louis , Encephalomyelitis, Venezuelan Equine , Flaviviridae , Flaviviridae Infections , Togaviridae Infections , Encephalitis Virus, Western Equine , Arbovirus Infections , Arboviruses/immunology , Diagnosis, Differential , Signs in HomeopathySubject(s)
Aedes/classification , Diagnosis, Differential , Disease Outbreaks , Disease Vectors , Signs and Symptoms , Yellow fever virus/immunology , Yellow fever virus/isolation & purification , Yellow Fever , Hemorrhage/therapy , Hepatic Insufficiency/therapy , Myocarditis/therapy , Pneumonia, Bacterial/therapy , Renal Insufficiency/therapySubject(s)
Aedes , Clinical Laboratory Techniques , Dengue/epidemiology , Entomology , Latin AmericaABSTRACT
Os autores reveem os aspectos ecoepidemiologicos apresentados pelos virus da encefalite de St. Louis (SLE), encefalites equinas Leste (EEE), Oeste (WEE) e Venezuelana [subtipos III, Mucambo (MUC) e IV, Pixuna (PIX)], decorrentes dos estudos realizados em diversas areas da Regiao Amazonica brasileira, especialmente ao longo das rodovias e projetos de desenvolvimento. Esses virus sao amplamente distribuidos na Amazonia e pelo menos quatro deles, EEE, WEE, MUC e SLE ja demonstraram ser patogenos do homem. O diagnostico da doenca humana foi feito por sorologia, sendo que de MUC e SLE obteve-se tambem isolamento viral. O virus PIX, parece ser o menos prevalente e foi isolado em poucas oportunidades. Virtualmente se desconhecem os vetores do PIX e WEE. As aves silvestres constituem os hospedeiros principais de todos esses virus, exceto do MUC, para o qual constituem os roedores. O quadro clinico apresentado pelos pacientes infectados na Amazonia e discutido, comparando-o ao apresentado em outras areas, especialmente nos EUA, onde periodicamente SLE, EEE e WEE causam surtos de doenca humana. Nenhuma epidemia foi ate o presente detectada, embora em 1960 uma epizootia em equinos causada pelo EEE tenha sido registrada em Braganca, Para, onde um rebanho de 500 animais ocorreu uma letalidade de 5 por cento.
