Sai Kit Lam scite author profile

A paramyxovirus virus termed Nipah virus has been identified as the etiologic agent of an outbreak of severe encephalitis in people with close contact exposure t o pigs in Malaysia and Singapore. The outbreak was first noted in late September 1998 and by mid-June 1999, more than 265 encephalitis cases, including 105 deaths, had been reported in Malaysia, and 11 cases of encephalitis or respiratory illness with one death had been reported in Singapore. Electron microscopic, serologic, and genetic studies indicate that this virus belongs t o the family Paramyxoviridae and is most closely related t o the recently discovered Hendra virus. We suggest that these two viruses are representative of a new genus within the family Paramyxoviridae. Like Hendra virus, Nipah virus is unusual among the paramyxoviruses in its ability t o infect and cause potentially fatal disease in a number of host species, including humans.

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Fatal encephalitis due to Nipah virus among pig-farmers in Malaysia

Chua

et al. 1999

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Localization of Dengue Virus in Naturally Infected Human Tissues, by Immunohistochemistry and In Situ Hybridization

et al. 2004

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Dengue viral antigens have been demonstrated in several types of naturally infected human tissues, but little is known of whether these same tissues have detectable viral RNA. We studied tissue specimens from patients with serologically or virologically confirmed dengue infections by immunohistochemistry (IHC) and in situ hybridization (ISH), to localize viral antigen and RNA, respectively. IHC was performed on specimens obtained from 5 autopsies and 24 biopsies and on 20 blood-clot samples. For ISH, antisense riboprobes to the dengue E gene were applied to tissue specimens in which IHC was positive. Viral antigens were demonstrated in Kupffer and sinusoidal endothelial cells of the liver; macrophages, multinucleated cells, and reactive lymphoid cells in the spleen; macrophages and vascular endothelium in the lung; kidney tubules; and monocytes and lymphocytes in blood-clot samples. Positive-strand viral RNA was detected in the same IHC-positive cells found in the spleen and blood-clot samples. The strong, positive ISH signal in these cells indicated a high copy number of viral RNA, suggesting replication.

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Isolation of Nipah virus from Malaysian Island flying-foxes

Chua

Koh

Hooi

et al. 2002

Microbes and Infection

523

462

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Clinical Features of Nipah Virus Encephalitis among Pig Farmers in Malaysia

Goh¹,

Tan²,

Chew³

et al. 2000

N Engl J Med

486

385

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A Golden Hamster Model for Human Acute Nipah Virus Infection

Wong

Grosjean

Brisson

et al. 2003

The American Journal of Pathology

207

229

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A predominantly pig-to-human zoonotic infection caused by the novel Nipah virus emerged recently to cause severe morbidity and mortality in both animals and man. Human autopsy studies showed the pathogenesis to be related to systemic vasculitis that led to widespread thrombotic occlusion and microinfarction in most major organs especially in the central nervous system. There was also evidence of extravascular parenchymal infection, particularly near damaged vessels A recent outbreak of a novel paramyxovirus subsequently named Nipah virus (NiV) infected hundreds of patients in Malaysia causing severe morbidity and a mortality rate of ϳ40%.

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Statement in support of the scientists, public health professionals, and medical professionals of China combatting COVID-19

Carroll²,

et al. 2020

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Best Practices in Dengue Surveillance: A Report from the Asia-Pacific and Americas Dengue Prevention Boards

Stone²,

et al. 2010

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BackgroundDengue fever is a virus infection that is spread by the Aedes aegypti mosquito and can cause severe disease especially in children. Dengue fever is a major problem in tropical and sub-tropical regions of the world.Methodology/Principal FindingsWe invited dengue experts from around the world to attend meetings to discuss dengue surveillance. We reviewed literature, heard detailed reports on surveillance programs, and shared expert opinions.ResultsPresentations by 22 countries were heard during the 2.5 day meetings. We describe the best methods of surveillance in general, the stakeholders in dengue surveillance, and the steps from mosquito bite to reporting of a dengue case to explore how best to carry out dengue surveillance. We also provide details and a comparison of the dengue surveillance programs by the presenting countries.Conclusions/SignificanceThe experts provided recommendations for achieving the best possible data from dengue surveillance accepting the realities of the real world (e.g., limited funding and staff). Their recommendations included: (1) Every dengue endemic country should make reporting of dengue cases to the government mandatory; (2) electronic reporting systems should be developed and used; (3) at minimum dengue surveillance data should include incidence, hospitalization rates, deaths by age group; (4) additional studies should be completed to check the sensitivity of the system; (5) laboratories should share expertise and data; (6) tests that identify dengue virus should be used in patients with fever for four days or less and antibody tests should be used after day 4 to diagnose dengue; and (7) early detection and prediction of dengue outbreaks should be goals for national surveillance systems.

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Sai Kit Lam

Nipah Virus: A Recently Emergent Deadly Paramyxovirus

Fatal encephalitis due to Nipah virus among pig-farmers in Malaysia

Localization of Dengue Virus in Naturally Infected Human Tissues, by Immunohistochemistry and In Situ Hybridization

Isolation of Nipah virus from Malaysian Island flying-foxes

Clinical Features of Nipah Virus Encephalitis among Pig Farmers in Malaysia

A Golden Hamster Model for Human Acute Nipah Virus Infection

Statement in support of the scientists, public health professionals, and medical professionals of China combatting COVID-19

Best Practices in Dengue Surveillance: A Report from the Asia-Pacific and Americas Dengue Prevention Boards

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