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      Epidemiology of Ebolaviruses from an Etiological Perspective

      Author(s): , , , ,
      Publication date Created:
      Publication date (Electronic):
      Journal: Pathogens
      Publisher: MDPI AG

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          Abstract

          Since the inception of the ebolavirus in 1976, 32 outbreaks have resulted in nearly 15,350 deaths in more than ten countries of the African continent. In the last decade, the largest (2013–2016) and second largest (2018–2020) ebolavirus outbreaks have occurred in West Africa (mainly Guinea, Liberia, and Sierra Leone) and the Democratic Republic of the Congo, respectively. The 2013–2016 outbreak indicated an alarming geographical spread of the virus and was the first to qualify as an epidemic. Hence, it is imperative to halt ebolavirus progression and develop effective countermeasures. Despite several research efforts, ebolaviruses’ natural hosts and secondary reservoirs still elude the scientific world. The primary source responsible for infecting the index case is also unknown for most outbreaks. In this review, we summarize the history of ebolavirus outbreaks with a focus on etiology, natural hosts, zoonotic reservoirs, and transmission mechanisms. We also discuss the reasons why the African continent is the most affected region and identify steps to contain this virus.

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          Global trends in emerging infectious diseases

          Kate E. Jones, Nikkita G Patel, Marc A. Levy (2008)
          The next new disease Emerging infectious diseases are a major threat to health: AIDS, SARS, drug-resistant bacteria and Ebola virus are among the more recent examples. By identifying emerging disease 'hotspots', the thinking goes, it should be possible to spot health risks at an early stage and prepare containment strategies. An analysis of over 300 examples of disease emerging between 1940 and 2004 suggests that these hotspots can be accurately mapped based on socio-economic, environmental and ecological factors. The data show that the surveillance effort, and much current research spending, is concentrated in developed economies, yet the risk maps point to developing countries as the more likely source of new diseases. Supplementary information The online version of this article (doi:10.1038/nature06536) contains supplementary material, which is available to authorized users.
          Article 0 comments Cited 1342 times – based on 0 reviews     Review now
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            Global hotspots and correlates of emerging zoonotic diseases

            Toph Allen, Kris Murray, Carlos Zambrana-Torrelio (2017)
            Zoonoses originating from wildlife represent a significant threat to global health, security and economic growth, and combatting their emergence is a public health priority. However, our understanding of the mechanisms underlying their emergence remains rudimentary. Here we update a global database of emerging infectious disease (EID) events, create a novel measure of reporting effort, and fit boosted regression tree models to analyze the demographic, environmental and biological correlates of their occurrence. After accounting for reporting effort, we show that zoonotic EID risk is elevated in forested tropical regions experiencing land-use changes and where wildlife biodiversity (mammal species richness) is high. We present a new global hotspot map of spatial variation in our zoonotic EID risk index, and partial dependence plots illustrating relationships between events and predictors. Our results may help to improve surveillance and long-term EID monitoring programs, and design field experiments to test underlying mechanisms of zoonotic disease emergence.
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              Zoonosis emergence linked to agricultural intensification and environmental change.

              Dirk U. Pfeiffer, Jonathan Rushton, Declan McKeever (2013)
              A systematic review was conducted by a multidisciplinary team to analyze qualitatively best available scientific evidence on the effect of agricultural intensification and environmental changes on the risk of zoonoses for which there are epidemiological interactions between wildlife and livestock. The study found several examples in which agricultural intensification and/or environmental change were associated with an increased risk of zoonotic disease emergence, driven by the impact of an expanding human population and changing human behavior on the environment. We conclude that the rate of future zoonotic disease emergence or reemergence will be closely linked to the evolution of the agriculture-environment nexus. However, available research inadequately addresses the complexity and interrelatedness of environmental, biological, economic, and social dimensions of zoonotic pathogen emergence, which significantly limits our ability to predict, prevent, and respond to zoonotic disease emergence.
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                Author and article information

                Contributors
                Manoj Baranwal: (View ORCID Profile)
                Journal
                Journal ID (publisher-id): PATHCD
                Title: Pathogens
                Abbreviated Title: Pathogens
                Publisher: MDPI AG
                ISSN (Electronic): 2076-0817
                Publication date Created: February 2023
                Publication date (Electronic): February 03 2023
                Volume: 12
                Issue: 2
                Page: 248
                Article
                DOI: 10.3390/pathogens12020248
                SO-VID: 43e21ef5-a3a2-4169-abef-9d1e7ca89624
                Copyright © © 2023
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                https://creativecommons.org/licenses/by/4.0/

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