Sergey V. Shulga scite author profile

A critical component of laboratory surveillance for measles is the genetic characterization of circulating wild-type viruses. The World Health Organization (WHO) Measles and Rubella Laboratory Network (LabNet), provides for standardized testing in 183 countries and supports genetic characterization of currently circulating strains of measles viruses. The goal of this report is to describe the lessons learned from nearly 20 years of virologic surveillance for measles, to describe the global databases for measles sequences, and to provide regional updates about measles genotypes detected by recent surveillance activities. Virologic surveillance for measles is now well established in all of the WHO regions, and most countries have conducted at least some baseline surveillance. The WHO Global Genotype Database contains >7000 genotype reports, and the Measles Nucleotide Surveillance (MeaNS) contains >4000 entries. This sequence information has proven to be extremely useful for tracking global transmission patterns and for documenting the interruption of transmission in some countries. The future challenges will be to develop quality control programs for molecular methods and to continue to expand virologic surveillance activities in all regions.

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High Genetic Diversity of Measles Virus, World Health Organization European Region, 2005–2006

Kremer¹,

Brown²,

Jin³

et al. 2008

Emerg. Infect. Dis.

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Status of Global Virologic Surveillance for Rubella Viruses

Abernathy

Hübschen

Muller

et al. 2011

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The suspected measles case definition captures rubella cases. Therefore, measles surveillance will be improved in the course of the control and eventual elimination of rubella transmission. One aspect of rubella control, virologic surveillance, is reviewed here. A systematic nomenclature for rubella viruses (RVs) based on 13 genotypes has been established and is updated when warranted by increases in information about RVs. From 2005 through 2010, the genotypes of RVs most frequently reported were 1E, 1G, and 2B, and genotypes 1a, 1B, 1C, 1h, 1j, and 2C were less frequently reported. Virologic surveillance can support rubella control and elimination. Synopses of rubella virologic surveillance in various countries, regions, and globally are given, including characterization of viruses from imported cases in a country that has eliminated rubella and studies of endemic viruses circulating in countries without rubella control objectives. Current challenges are discussed.

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Molecular Genotyping and Epidemiology of Measles Virus Transmission in the World Health Organization European Region, 2007–2009

Mankertz¹,

Mulders²,

Shulga³

et al. 2011

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Molecular surveillance of measles and rubella in the WHO European Region: new challenges in the elimination phase

Santibanez

Hübschen

Mamou

et al. 2017

Clinical Microbiology and Infection

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Sergey V. Shulga

Global Distribution of Measles Genotypes and Measles Molecular Epidemiology

High Genetic Diversity of Measles Virus, World Health Organization European Region, 2005–2006

Status of Global Virologic Surveillance for Rubella Viruses

Molecular Genotyping and Epidemiology of Measles Virus Transmission in the World Health Organization European Region, 2007–2009

Molecular surveillance of measles and rubella in the WHO European Region: new challenges in the elimination phase

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