B Part of It study: a longitudinal study to assess carriage of  Neisseria meningitidis  in first year university students in South Australia

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ABSTRACT

Objectives: N. meningitidis carriage in Australia is poorly understood. This study aimed to estimate prevalence and risk factors for carriage of N. meningitidis in South Australian university students. We also sought to identify whether delayed freezing of oropharyngeal samples altered PCR positivity, cycle threshold, or culture positivity.

Methods: Oropharyngeal swabs were taken from first year university students and repeated after 3 months, with risk factor questionnaires completed at both visits. Specimens were subjected to real-time PCR screening for the presence of specific meningococcal DNA.

Results: The study enrolled 421 individuals, 259 returned at 3 months. At baseline, 56% of participants were female and 1.9% smokers. Carriage of N. meningitidis at baseline was 6.2% (95% CI, [4.2%, 8.9%]). Visiting a bar more than once a week (OR 9.07; [2.44, 33.72]) and intimate kissing (OR 4.37; [1.45, 13.14]) were associated with increased carriage. After imputing missing data, the point estimate for carriage at 3 months was 8.6% compared to 6.2% at baseline (OR 1.42; 0.91 to 2.20). Recovery of N. meningitidis on selective agar was significantly reduced in cryovials frozen at 48 hours compared to 6 hours (24/26, 92.3% vs. 14/26, 53.9%, p = 0.002).

Conclusion: Attending bars and engaging in intimate kissing is associated with oropharyngeal carriage in South Australian university students. Adolescent meningococcal vaccine programs should be implemented at school, prior to increased attendance at bars, intimate contact, and carriage acquisition. Delaying freezing of oropharyngeal specimens longer than 16 hours reduces yield of N. meningitidis by culture but not PCR detection.

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Most cited references 27

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Meningococcal carriage by age: a systematic review and meta-analysis.

Hannah Christensen, Margaret May, Leah Bowen … (2010)

Neisseria meningitidis is an important cause of meningitis and septicaemia, but most infected individuals experience a period of asymptomatic carriage rather than disease. Previous studies have shown that carriage rates vary by age and setting; however, few have assessed carriage across all ages. We aimed to estimate the age-specific prevalence of meningococcal carriage. We searched Embase, Medline, Web of Science, the Cochrane Library, and grey literature for papers reporting carriage of N meningitidis in defined age groups in European countries or in countries with a similar epidemiological pattern (where disease caused by serogroups B and C predominates). We used mixed-effects logistic regression with a natural cubic spline to model carriage prevalence as a function of age for studies that were cross-sectional or serial cross-sectional. The model assessed population type, type of swab used, when swabs were plated, use of preheated plates, and time period (decade of study) as fixed effects, with country and study as nested random effects (random intercept). Carriage prevalence increased through childhood from 4·5% in infants to a peak of 23·7% in 19-year olds and subsequently decreased in adulthood to 7·8% in 50-year olds. The odds of testing positive for carriage decreased if swabs were not plated immediately after being taken compared with if swabs were plated immediately (odds ratio 0·46, 95% CI 0·31-0·68; p = 0·0001). This study provides estimates of carriage prevalence across all ages, which is important for understanding the epidemiology and transmission dynamics of meningococcal infection. None. Copyright © 2010 Elsevier Ltd. All rights reserved.

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Meningococcal carriage and disease—Population biology and evolution

Dominique Caugant, Martin C.J. Maiden (2009)

Meningococcal disease occurs worldwide with incidence rates varying from 1 to 1000 cases per 100,000. The causative organism, Neisseria meningitidis, is an obligate commensal of humans, which normally colonizes the mucosa of the upper respiratory tract without causing invasive disease, a phenomenon known as carriage. Studies using molecular methods have demonstrated the extensive genetic diversity of meningocococci isolated from carriers, in contrast to a limited number of genetic types, known as the hyperinvasive lineages, associated with invasive disease. Population and evolutionary models that invoke positive selection can be used to resolve the apparent paradox of virulent lineages persisting during the global spread of a non-clonal and normally commensal bacterium. The application of insights gained from studies of meningococcal population biology and evolution is important in understanding the spread of disease, as well as in vaccine development and implementation, especially with regard to the challenge of producing comprehensive vaccines based on sub-capsular antigens and measuring their effectiveness.

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Social Behavior and Meningococcal Carriage in British Teenagers

Jenny M. MacLennan, George Kafatos, Keith Neal … (2006)

Understanding predisposing factors for meningococcal carriage may identify targets for public health interventions. Before mass vaccination with meningococcal group C conjugate vaccine began in autumn 1999, we took pharyngeal swabs from ≈14,000 UK teenagers and collected information on potential risk factors. Neisseria meningitidis was cultured from 2,319 (16.7%) of 13,919 swabs. In multivariable analysis, attendance at pubs/clubs, intimate kissing, and cigarette smoking were each independently and strongly associated with increased risk for meningococcal carriage (p<0.001). Carriage in those with none of these risk factors was 7.8%, compared to 32.8% in those with all 3. Passive smoking was also linked to higher risk for carriage, but age, sex, social deprivation, home crowding, or school characteristics had little or no effect. Social behavior, rather than age or sex, can explain the higher frequency of meningococcal carriage among teenagers. A ban on smoking in public places may reduce risk for transmission.

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Author and article information

Journal

Journal ID (nlm-ta): Hum Vaccin Immunother

Journal ID (iso-abbrev): Hum Vaccin Immunother

Journal ID (publisher-id): KHVI

Journal ID (publisher-id): khvi20

Title: Human Vaccines & Immunotherapeutics

Publisher: Taylor & Francis

ISSN (Print): 2164-5515

ISSN (Electronic): 2164-554X

Publication date Collection: 2019

Publication date (Electronic): 4 January 2019

Publication date PMC-release: 4 January 2019

Volume: 15

Issue: 4

Pages: 987-994

Affiliations

[a ]Vaccinology and Immunology Research Trials Unit, Women’s and Children’s Health Network , Adelaide, SA, Australia

[b ]Robinson Research Institute and Adelaide Medical School, The University of Adelaide , Adelaide, SA, Australia

[c ]Microbiology and Infectious Diseases Directorate, SA Pathology , Adelaide, SA, Australia

[d ]South Australian Health & Medical Research Institute (SAHMRI) , Adelaide, SA, Australia

[e ]School of Public Health, The University of Adelaide , Adelaide, SA, Australia

[f ]Menzies School of Health Research, Charles Darwin University , Darwin, Northern Territory, Australia

[g ]National Centre for Epidemiology & Population Health, Australian National University , Canberra, Australian Capital Territory, Australia

Author notes

CONTACT Helen Marshall helen.marshall@ 123456adelaide.edu.au Vaccinology and Immunology Research Trials Unit, Women’s and Children’s Hospital , North Adelaide, SA, 5006, Australia.

The protocol for this pilot is published in the Australian New Zealand Clinical Trials Registry ACTRN1261700023332.

Color versions of one or more of the figures in the article can be found online at www.tandfonline.com/khvi.

Author information

Mark McMillan http://orcid.org/0000-0002-6490-7707

Lex E. X. Leong http://orcid.org/0000-0002-5073-2272

Geraint B. Rogers http://orcid.org/0000-0003-4054-1947

Article

Publisher ID: 1551672

DOI: 10.1080/21645515.2018.1551672

PMC ID: 6605849

PubMed ID: 30513251

SO-VID: 45d998e3-e681-442e-b77c-f1f7a812c272

License:

This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives License ( http://creativecommons.org/licenses/by-nc-nd/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited, and is not altered, transformed, or built upon in any way.

History

Date received : 10 September 2018

Date revision received : 2 November 2018

Date accepted : 14 November 2018

Page count

Figures: 1, Tables: 5, References: 40, Pages: 8

Funding

Funded by: GlaxoSmithKline 10.13039/100004330

Funded by: Women's & Children's Health Network (AU)

Funding for this study was provided by GlaxoSmithKline Biologicals SA. The funder is independent of study management and analysis of the data. GlaxoSmithKline Biologicals SA was provided the opportunity to review a preliminary version of this manuscript for factual accuracy but the authors are solely responsible for final content and interpretation. The authors received no financial support or other form of compensation related to the development of the manuscript. Women’s and Children’s Hospital Network provided funding for the saliva testing add on study.

B Part of It study: a longitudinal study to assess carriage of Neisseria meningitidis in first year university students in South Australia

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Most cited references 27

Meningococcal carriage by age: a systematic review and meta-analysis.

Meningococcal carriage and disease—Population biology and evolution

Social Behavior and Meningococcal Carriage in British Teenagers

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