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      Dynamics of Cholera Outbreaks in Great Lakes Region of Africa, 1978–2008

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          Abstract

          Outbreaks fluctuate on the basis of season, rainfall, plankton bloom, and fishing activities.

          Abstract

          Cholera outbreaks have occurred in Burundi, Rwanda, Democratic Republic of Congo, Tanzania, Uganda, and Kenya almost every year since 1977–1978, when the disease emerged in these countries. We used a multiscale, geographic information system–based approach to assess the link between cholera outbreaks, climate, and environmental variables. We performed time-series analyses and field investigations in the main affected areas. Results showed that cholera greatly increased during El Niño warm events (abnormally warm El Niños) but decreased or remained stable between these events. Most epidemics occurred in a few hotspots in lakeside areas, where the weekly incidence of cholera varied by season, rainfall, fluctuations of plankton, and fishing activities. During lull periods, persistence of cholera was explained by outbreak dynamics, which suggested a metapopulation pattern, and by endemic foci around the lakes. These links between cholera outbreaks, climate, and lake environments need additional, multidisciplinary study.

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          Climate change decreases aquatic ecosystem productivity of Lake Tanganyika, Africa.

          Simone R. Alin, SHERRY MCKEE, Myron S Cohen (2003)
          Although the effects of climate warming on the chemical and physical properties of lakes have been documented, biotic and ecosystem-scale responses to climate change have been only estimated or predicted by manipulations and models. Here we present evidence that climate warming is diminishing productivity in Lake Tanganyika, East Africa. This lake has historically supported a highly productive pelagic fishery that currently provides 25-40% of the animal protein supply for the populations of the surrounding countries. In parallel with regional warming patterns since the beginning of the twentieth century, a rise in surface-water temperature has increased the stability of the water column. A regional decrease in wind velocity has contributed to reduced mixing, decreasing deep-water nutrient upwelling and entrainment into surface waters. Carbon isotope records in sediment cores suggest that primary productivity may have decreased by about 20%, implying a roughly 30% decrease in fish yields. Our study provides evidence that the impact of regional effects of global climate change on aquatic ecosystem functions and services can be larger than that of local anthropogenic activity or overfishing.
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            Syndromic surveillance in public health practice, New York City.

            Richard Heffernan, Farzad Mostashari, Debjani Das (2004)
            The New York City Department of Health and Mental Hygiene has established a syndromic surveillance system that monitors emergency department visits to detect disease outbreaks early. Routinely collected chief complaint information is transmitted electronically to the health department daily and analyzed for temporal and spatial aberrations. Respiratory, fever, diarrhea, and vomiting are the key syndromes analyzed. Statistically significant aberrations or "signals" are investigated to determine their public health importance. In the first year of operation (November 15, 2001, to November 14, 2002), 2.5 million visits were reported from 39 participating emergency departments, covering an estimated 75% of annual visits. Most signals for the respiratory and fever syndromes (64% and 95%, respectively) occurred during periods of peak influenza A and B activity. Eighty-three percent of the signals for diarrhea and 88% of the signals for vomiting occurred during periods of suspected norovirus and rotavirus transmission.
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              Understanding the Cholera Epidemic, Haiti

              Renaud Piarroux, Robert Barrais, Benoit Faucher (2011)
              After onset of a cholera epidemic in Haiti in mid-October 2010, a team of researchers from France and Haiti implemented field investigations and built a database of daily cases to facilitate identification of communes most affected. Several models were used to identify spatiotemporal clusters, assess relative risk associated with the epidemic’s spread, and investigate causes of its rapid expansion in Artibonite Department. Spatiotemporal analyses highlighted 5 significant clusters (p<0.001): 1 near Mirebalais (October 16–19) next to a United Nations camp with deficient sanitation, 1 along the Artibonite River (October 20–28), and 3 caused by the centrifugal epidemic spread during November. The regression model indicated that cholera more severely affected communes in the coastal plain (risk ratio 4.91) along the Artibonite River downstream of Mirebalais (risk ratio 4.60). Our findings strongly suggest that contamination of the Artibonite and 1 of its tributaries downstream from a military camp triggered the epidemic.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Emerg Infect Dis
                Journal ID (iso-abbrev): Emerging Infect. Dis
                Journal ID (publisher-id): EID
                Title: Emerging Infectious Diseases
                Publisher: Centers for Disease Control and Prevention
                ISSN (Print): 1080-6040
                ISSN (Electronic): 1080-6059
                Publication date (Print): November 2011
                Volume: 17
                Issue: 11
                Pages: 2026-2034
                Affiliations
                [1]Université de Franche-Comté, Besançon, France (D. Bompangue Nkoko, P. Giraudoux, M. Piarroux, B. Sudre)
                [2]Ministère de la Santé Publique, Kinshasa, Democratic Republic of Congo (D. Bompangue Nkoko, A. Mutombo Tinda, J.-J. Muyembe Tamfum, B. Kebela Ilunga)
                [3]Royal Museum for Central Africa, Tervuren, Belgium (P.-D. Plisnier)
                [4]Joint Research Centre of the European Commission, Ispra, Italy (S. Horion)
                [5]Université de Kinshasa, Kinshasha (J.-J. Muyembe Tamfum)
                [6]Université de la Méditerranée, Marseille, France (R. Piarroux)
                [7]University Hospital La Timone, Marseille (R. Piarroux)
                Author notes
                Address for correspondence: Renaud Piarroux, Service de Parasitologie, CHU La Timone, 264 Rue Saint Pierre, 13385 Marseille, Cedex 5, France; email: renaud.piarroux@ 123456ap-hm.fr
                Article
                Publisher ID: 11-0170
                DOI: 10.3201/eid1711.110170
                PMC ID: 3310557
                PubMed ID: 22099090
                SO-VID: bacdd253-fa40-41be-a3f7-f484044a183c
                History
                Categories
                Subject: Research

                ScienceOpen disciplines: Infectious disease & Microbiology
                Keywords: phytoplankton,bacteria,research,cholera,transmission,kenya,outbreak,epidemiology,rwanda,climate,democratic republic of the congo,tanzania,africa,diarrhea,epidemics,el nino,plankton,uganda,vibrio cholerae,burundi
                Data availability:
                ScienceOpen disciplines: Infectious disease & Microbiology
                Keywords: phytoplankton, bacteria, research, cholera, transmission, kenya, outbreak, epidemiology, rwanda, climate, democratic republic of the congo, tanzania, africa, diarrhea, epidemics, el nino, plankton, uganda, vibrio cholerae, burundi

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