Impact of Meningococcal Serogroup C Conjugate Vaccines on Carriage and Herd Immunity

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Abstract

Background. In 1999, meningococcal serogroup C conjugate (MCC) vaccines were introduced in the United Kingdom for those under 19 years of age. The impact of this intervention on asymptomatic carriage of meningococci was investigated to establish whether serogroup replacement or protection by herd immunity occurred.

Methods. Multicenter surveys of carriage were conducted during vaccine introduction and on 2 successive years, resulting in a total of 48,309 samples, from which 8599 meningococci were isolated and characterized by genotyping and phenotyping.

Results. A reduction in serogroup C carriage (rate ratio, 0.19) was observed that lasted at least 2 years with no evidence of serogroup replacement. Vaccine efficacy against carriage was 75%, and vaccination had a disproportionate impact on the carriage of sequence type (ST)-11 complex serogroup C meningococci that (rate ratio, 0.06); these meningococci also exhibited high rates of capsule expression.

Conclusions. The impact of vaccination with MCC vaccine on the prevalence of carriage of group C meningococci was consistent with herd immunity. The high impact on the carriage of ST-11 complex serogroup C could be attributed to high levels of capsule expression. High vaccine efficacy against disease in young children, who were not protected long-term by the schedule initially used, is attributed to the high vaccine efficacy against carriage in older age groups.

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Most cited references 37

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Multilocus sequence typing of bacteria.

Martin Maiden (2006)

Multilocus sequence typing (MLST) was proposed in 1998 as a portable, universal, and definitive method for characterizing bacteria, using the human pathogen Neisseria meningitidis as an example. In addition to providing a standardized approach to data collection, by examining the nucleotide sequences of multiple loci encoding housekeeping genes, or fragments of them, MLST data are made freely available over the Internet to ensure that a uniform nomenclature is readily available to all those interested in categorizing bacteria. At the time of writing, over thirty MLST schemes have been published and made available on the Internet, mostly for pathogenic bacteria, although there are schemes for pathogenic fungi and some nonpathogenic bacteria. MLST data have been employed in epidemiological investigations of various scales and in studies of the population biology, pathogenicity, and evolution of bacteria. The increasing speed and reduced cost of nucleotide sequence determination, together with improved web-based databases and analysis tools, present the prospect of increasingly wide application of MLST.

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Sequence type analysis and recombinational tests (START).

K Jolley, E Feil, M S Chan … (2001)

The 32-bit Windows application START is implemented using Visual Basic and C(++) and performs analyses to aid in the investigation of bacterial population structure using multilocus sequence data. These analyses include data summary, lineage assignment, and tests for recombination and selection. START is available at http://outbreak.ceid.ox.ac.uk/software.htm. keith.jolley@ceid.ox.ac.uk

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Effectiveness of meningococcal serogroup C conjugate vaccine 4 years after introduction.

Caroline L Trotter, Nick Andrews, Edward Kaczmarski … (2004)

The meningococcal serogroup C conjugate (MCC) vaccine programme in England has successfully controlled the incidence of serogroup C disease, as a result of high short-term vaccine effectiveness and substantial herd immunity. However, the long-term effectiveness of the vaccine remains unknown. We assessed surveillance data from the 4 years since introduction of the programme. Vaccine effectiveness remained high in children vaccinated in the catch-up campaign (aged 5 months to 18 years). However, for children vaccinated in the routine infant immunisation programme, the effectiveness of the MCC vaccine fell to low levels after only 1 year. The number of individuals in these cohorts remains low, but alternative routine immunisation schedules should be considered to ensure high levels of protection are sustained.

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Author and article information

Journal

Title: The Journal of Infectious Diseases

Publisher: University of Chicago Press

ISSN (Electronic): 1537-6613

ISSN (Print): 0022-1899

Publication date Created: March 01 2008

Publication date Other: March 01 2008

Publication date (Print): March 01 2008

Publication date (Electronic): March 01 2008

Volume: 197

Issue: 5

Pages: 737-743

Affiliations

[1 ]Dept. of Zoology, John Radcliffe Hospital, Oxford University, Oxford

[2 ]Meningococcal Reference Unit, Health Protection Agency, Manchester Medical Microbiology Partnership, Manchester

[3 ]Health Protection Agency Centre for Infections, London

[4 ]Molecular Microbiology Group, School of Medicine, University of Southampton

[5 ]University of Wales, Bangor, Gwynedd

[6 ]National Public Health Service for Wales, Unit 1, Parc Nantgarw, Cardiff

[7 ]Imperial College School of Medicine, London

[8 ]University of Nottingham, Epidemiology and Public Health, Community Health Sciences, Queen's Medical Centre, Nottingham

[9 ]Division of Microbiology, School of Molecular Medical Sciences, Institute of Infection Immunity and Inflammation University of Nottingham

[10 ]Nuffield Dept. of Clinical and Laboratory Sciences, John Radcliffe Hospital, Oxford University, Oxford

[11 ]South West Peninsula Health Protection Unit, Lescaze Offices, Dartington, Devon

[12 ]Derriford Hospital, Crownhill, Plymouth, Devon

[13 ]Div. of Epidemiology and Health Sciences, Medical School, the University of Manchester, Manchester

[14 ]Clinical Science Building, Manchester Royal Infirmary, Manchester

[15 ]Health Protection Scotland, Clifton House, Glasgow, Scotland

[16 ]Health Protection Agency South West, Stonehouse, Gloucester, United Kingdom

Article

DOI: 10.1086/527401

PMC ID: 6767871

PubMed ID: 18271745

SO-VID: 68a84793-d652-400a-8a92-f03993cc9dac

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Impact of Meningococcal Serogroup C Conjugate Vaccines on Carriage and Herd Immunity

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Abstract

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Vaccines

Most cited references 37

Multilocus sequence typing of bacteria.

Sequence type analysis and recombinational tests (START).

Effectiveness of meningococcal serogroup C conjugate vaccine 4 years after introduction.

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