Elsevier

Journal of Infection

Volume 42, Issue 2, February 2001, Pages 104-115
Journal of Infection

Review Article
Dengue and Other Emerging Flaviviruses

https://doi.org/10.1053/jinf.2001.0802Get rights and content

Abstract

Flaviviruses are among the most important emerging viruses known to man. Most are arboviruses (arthropod-borne) being transmitted by mosquitoes or ticks. They derived from a common ancestor 10–20000 years ago and are evolving rapidly to fill new ecological niches. Many are spreading to new geographical areas and causing increased numbers of infections. Traditionally, three clinical syndromes are recognized: fever-arthralgia-rash, viral haemorrhagic fever, and neurological disease, though for some flaviviruses the disease pattern is changing. Dengue, the most important flavivirus, is transmitted between humans by Aedes mosquitoes. Recent work is elucidating the pathogenesis of its most severe form, dengue haemorrhagic fever. Yellow fever, which has epidemiological similarities to dengue, was under control in the mid-20th century, but is once again increasing. Japanese<$>encephalitis virus is numerically the most important cause of epidemic encephalitis; its geographical area is expanding despite the availability of vaccines. Other mosquito-borne neurotropic flaviviruses with clinical and epidemiological similarities are found across the globe. These include St Louis encephalitis virus, Murray Valley encephalitis virus, and West Nile virus, which recently reached the Americas for the first time. In cooler northern climates ticks are more important vectors. Tick-borne encephalitis virus occurs across large parts of Eastern Europe and the Commonwealth of Independent states. The tick-borne haemorrhagic flaviviruses, Omsk haemorrhagic fever and Kyasanur Forrest disease are localized in small areas.

References (104)

  • DI Simpson et al.

    Arbovirus infections in Sarawak: the role of the domestic pig

    Trans R Soc Trop Med Hyg

    (1976)
  • JSM Peiris et al.

    Japanese encephalitis in Sri Lanka – the study of an epidemic: vector incrimination, porcine infection, and human disease

    Trans R Soc Trop Med Hyg

    (1992)
  • T Solomon et al.

    Poliomyelitis-like illness due to Japanese encephalitis virus

    Lancet

    (1998)
  • S Hennessy et al.

    Effectiveness of live-attenuated Japanese encephalitis vaccine (SA14-14-2): a case control study

    Lancet

    (1996)
  • TF Tsai

    New initiatives for the control of Japanese encephalitis by vaccination: minutes of a WHO/CVI meeting, Bangkok, Thailand, 13–15 October 1998

    Vaccine

    (2000)
  • TF Tsai et al.

    West Nile encephalitis epidemic in Southeastern Romania

    Lancet

    (1998)
  • ANB McNair et al.

    Tick-borne encephalitis complicated by monoplegia and sensorineural deafness

    J Infect

    (1991)
  • EA Gould et al.

    The genetic evolution of flaviviruses

  • DH Simpson

    Arboviruses

  • LJ Markoff et al.

    The family Flaviviridae and its diseases

  • TP Monath et al.

    Flaviviruses

  • TJ Chambers et al.

    plavivirus genome organisation, expression and replication

    Ann Rev Microbiol

    (1990)
  • T Hase et al.

    Maturation process of Japanese encephalitis virus in cultured mosquito cells in vitro and mouse brain cellsin vivo

    Arch Virol

    (1987)
  • T Hase et al.

    An electron andimmunoelectron microscopic study of dengue-2 virus infection of cultured mosquito cells: maturation events

    Arch Virol

    (1987)
  • T Solomon

    Japanese encephalitis

  • TP Monath

    Dengue: the risk to developed and developing countries. Proc Natl

    Acad Sci USA

    (1994)

  • Dengue Haemorrhagic Fever: Diagnosis, Treatement and Control, 2nd ed

    (1997)
  • Rush, B, An account of the bilious remitting fever, as it appeared in Philadelphia in the summer and autumn of the year...
  • DJ Gubler

    Dengue and dengue haemorrhagic fever: its history and resurgence as a global public health problem

  • N Bhamarapravathi et al.

    Pathology of Thailand hemorrhagic fever: A study of 100 autopsy cases

    Ann Trop Med Parasitol

    (1967)
  • Innis, B, Dengue and dengue haemorrhagic fever, Porterfield, JS, Exotic Viral Infections, London, Chapman & Hall, 1995,...
  • Halstead, SB, The XXth Century Dengue Pandemic, World Health Stat Q, 1992, 45: 292,...
  • JG Rigau-Perez et al.

    Dengue and dengue haemorrhagic fever

    Lancet

    (1998)
  • SB Halstead et al.

    Dengue and chikungunya virus infection in man in Thailand, 1962–1964. V. Epidemiological observations outside of Bangkok

    Am J Trop Med Hyg

    (1969)
  • DW Vaughn et al.

    Dengue in the early febrile phase: viremia and antibody responses

    J infect Dis

    (1997)
  • RS Lanciotti et al.

    Rapid detection and typing of dengue viruses from clinical samples by using reverse transcriptase-polymerase chain reaction

    J Clin Micro

    (1992)
  • BL Innis et al.

    An enzyme-linked immunosorbent assay to characterize dengue infections where dengue and Japanese encephalitis co-circulate

    Am J Trop Med Hyg

    (1989)
  • DW Vaughn et al.

    Rapid serological diagnosis of dengue infection using a commercial capture ELISA that distinguishes primary and secondary infections

    Am J Trop Med Hyg

    (1999)
  • AJ Cuzzubbo et al.

    Comparison of PanBio Dengue Due enzyme-linked immunosorbant assay (ELISA) and MRL Dengue Fever Virus Immunoglobulin M Capture ELISA for diagnosis of dengue virus infections in Southeast Asia

    Clin Diagn Lab Immunol

    (1999)
  • DW Vaughn et al.

    Evaluation of a rapid immunochromatographic test for the diagnosis of dengue infection

    J Clin Micro

    (1998)
  • Lin, FC, Vorndam, V, Vaughn, DW, et al., Immunodetection of dengue virus in human sera collected during the febrile...
  • JG Rigau-Perez et al.

    An evaluation of modified case definitions for the detection of dengue hemorrhagic fever. Puerto Rico Association of Epidemiologists

    P R Health Sci J

    (1999)
  • B Murgue et al.

    Dengue: an evaluation of dengue severity in French Polynesia based on an analysis of 403 laboratory-confirmed cases

    Trop Med Int Health

    (1999)
  • S Nimmannitya

    Clinical spectrum and management of dengue haemorrhagic fever

    Trans R Soc Trop Med Hyg

    (1987)
  • MW Setiawan et al.

    Dengue haemorhagic fever: ultrasound as an aid to predict the severity of the disease

    Pediatr Radiol

    (1998)
  • NM Dung et al.

    Fluid replacement in dengue shock syndrome: a randomized, double-blind comparison of fourintravenous-fluid regimens

    Clin Infect Dis

    (1999)
  • NT Nhan et al.

    Acute management of dengue shock syndrome: a randomised double blind comparison of four intravenous fluid regimens in the first hour

    Clin Infect Dis

    (2001)
  • S Tassniyom et al.

    Failure of high-dose methylprednisolone in established dengue shock syndrome: a placebo-controlled, double-blind study

    Pediatrics

    (1993)
  • Sumarmo et al.

    Failure of hydrocortisone to affect outcome in dengue shock syndrome

    Pediatrics

    (1982)
  • SB Halstead

    Pathogenesis of dengue: challenges to molecular biology

    Science

    (1988)

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    Please address all correspondence to: T. Solomon, Department of Neurological Science, University of Liverpool, Walton Centre for Neurology and Neurosurgery, Fazakerley, Liverpool L9 7LJ, UK. email:[email protected]

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    Copyright © 2001 The British Infection Society. Published by Elsevier Ltd. All rights reserved.