Saliva and meningococcal transmission.Neisseria meningitidis carriage was compared in swab specimens of nasopharynx, tonsils, and saliva taken from 258 students. We found a higher yield in nasopharyngeal than in tonsillar swabs (32% vs. 19%, p<0.001). Low prevalence of carriage in saliva swabs (one swab [0.4%]) suggests that low levels of salivary contact are unlikely to transmit meningococci. ********** Invasive meningococcal disease has a high case-fatality rate and an immediate risk of further cases among household contacts. Public health measures therefore include prompt identification of contacts for chemoprophylaxis che  mo·prophy·lac tic (-l k (1). One question that commonly arises is whether
salivary contact through sharing cups or glasses is an indication for
prophylaxis, but the evidence base to inform an answer is weak, and
national guidelines are inconsistent (1,2). Although saliva is thought
to inhibit meningococcal growth (3), carriage rates in saliva are not
known, and swabs to detect carriage are usually taken from tonsils or
nasopharynx (4-5). We compared meningococcal isolation rates in swabs of
saliva (front of mouth), tonsils, and nasopharynx.We recruited volunteers among students from two colleges in Hereford Hereford, town and district, EnglandHereford (hĕr`əfərd), town (1991 pop. 48,277), Herefordshire Herefordshire, county, 842 sq mi (2,181 sq km), W central England, on the Welsh border. The county has an undulating terrain, which reaches its greatest height in the Black Mts. and Malvern Hills. The chief rivers are the Wye, the Teme, and the Frome. The largely agricultural county is famous for its orchards and Hereford cattle., W central England. Hereford is a cattle-market town, from which the cattle breed takes its name. Industries include food processing, brewing, and light manufacturing., England. After giving written consent, students completed a short questionnaire on age, sex, smoking, recent antimicrobial drug use, and meningococcal vaccine status. Three sterile, dry, cotton-tipped swabs were used to take samples from each volunteer: one from the nasopharynx (through the mouth and swept up behind the uvula), one from both tonsils, and one swab of saliva between the lower gum and lips. Swabs were plated directly onto a selective culture medium culture medium /cul·ture me·di·um/ (kul´cher med´e-um) any substance used to cultivate living cells. primarily designed for the isolation of pathogenic Neisseria species (modified New York City base containing vancomycin, colistin colistin /co·lis·tin/ (ko-lis´tin) an antibiotic produced by Bacillus polymyxa var. colistinus, related to polymyxin and effective against many gram-negative bacteria; used as the sulfate salt.co·lis·tin (k, and trimethoprim), prepared by Taunton Media Services, UK (7). The plates were transported to Hereford Public Health Laboratory, where they were spread once from the primary inoculum in·oc·u·lums or in·oc·u·la (-l and incubated in 7% CO2 at 37[degrees]C for 48 h.
Putative Neisseria species isolated were sent to the Meningococcal
Reference Unit, Manchester Public Health Laboratory, for Neisseria
meningitidis confirmation and serologic phenotypic characterization.
Data were entered into the computer using Excel (Microsoft Corp.,
Redmond, WA). Carriage rates by site were compared with McNemar's
test and by risk factor using chi-square tests. Ethical approval was
obtained from the Public Health Laboratory Service Ethics Committee and
Herefordshire District Ethics Committee. ) The microorganisms or other material used in an inoculation. Also called inoculant. Of the 258 participants, 90 (35%) were identified as carrying Neisseria meningitidis from one or more sites. The site with the highest yield was the nasopharynx (32.2%), whereas tonsillar carriage was 19.4% (Table). One (0.4%) of the 258 saliva swab specimens was positive. No one had positive specimens from all three sites, and the person with the positive saliva swab had negative swabs from the other two sites. Differences in carriage rates between the nasopharynx and tonsils and between the nasopharynx and saliva were statistically significant (p<0.001 in both cases). The predominant serogroup among carried strains was B. No serogroup C strains were identified. Of the 44 carriers with positive swabs from both nasopharynx and tonsils, each pair of isolates was considered to be phenotypically indistinguishable by serogroup, serotype, and scro-subtype. In three of these pairs, one isolate expressed serogroup B, and the paired isolate could not be serogrouped but had identical serotype and sero-subtype. Of the 258 participants, 116 (45%) were men, and 142 were women. Most (86%) were 18 to 21 years of age. Carriage rates were higher among men than women (54/116 vs. 36/142, p<0.001), and among smokers than nonsmokers (49/90 vs. 51/168, p<0.001). Carriage rates were similar when persons were stratified by age, meningococcal vaccination status, and recent antimicrobial drug use. Although duplicate swabs from the nasopharynx sometimes yield different meningococcal strains (3), none of the paired isolates in this study were distinguishable by phenotype. The yield of meningococci from nasopharyngeal swabs was nearly twice as high as that from tonsillar swabs. Previous researchers have found a lower sensitivity of nasopharyngeal swabs taken through the nose using small cotton-tipped wire swabs compared to tonsillar swabs taken using larger cotton-tipped swabs (5,6). Our use of the same type of swab to sample both sites provided a more valid comparison. The carriage rate was higher than expected for this age group (4), suggesting that we had efficient swabbing and microbiologic techniques. We suggest that throat swabs to detect meningococcal carriage should always be taken from the nasopharynx (through the mouth whenever practical) and not from the tonsils. The very low isolation rate from saliva swabs suggests that low levels of salivary contact are unlikely to transmit meningococci (1). This observation is supported by results of a case-control study among university students that found no association between meningococcal acquisition and sharing of glasses or cigarettes (8). On the basis of this evidence, we propose that guidelines for public health management of meningococcal disease should not include low-level salivary contact (e.g., sharing drinks) with a case-patient as an indication for chemoprophylaxis.
Table. Carriage of Neisseria meningitidis by site
Site of swab One site Two sites Three sites
positive positive positive
Nasopharynx 39 44 0
Tonsils 6 44 0
Saliva 1 0 0
(a) (n=258).
Site of swab Total Overall
positive carriage %
Nasopharynx 83 32.2
Tonsils 50 19.4
Saliva 1 0.4
(a) (n=258).
Acknowledgments We thank all staff and students at Hereford College of Technology and Hereford College of Art and Design who were involved in this study and Erika Duffell and Nicky Maxwell for their help with sampling. This study was supported by Gloucester Public Health Laboratory Trust Fund. References (1.) Public Health Laboratory Service. Guidelines for public health management of meningococcal disease in the UK. Commun Dis Public Health 2002;5:187-204. (2.) Communicable Diseases Network Australia. Guidelines on the early clinical and public health management of meningococcal disease in Australia. [Accessed 3 June 2003]. Available from: URL: http://www.health.gov.au/pubhlth/cdi/pubs/mening.htm (3.) Gordon MH. The inhibitory action of saliva on growth of the meningococcus me·nin·go·coc·ci (-k  ks , -k. Great Britain Medical Research Committee, Special Report
Series 3; 1917. p. 106-11.(4.) Cartwright KAV KAV - Kaspersky AntiVirus KAV - Wiener Krankenanstaltenverbund (Vienna, Austria), Stuart JM, Jones DM, Noah ND. The Stonehouse survey: nasopharyngeal carriage of meningococci and Neisseria lactamica. Epidemiol Infect 1987;99:591-601. (5.) Olcen P, Kjellander J, Danielsson D, Lindquist BL. Culture diagnosis of meningococcal carriers: yield from different sites and influence of storage in transport medium. J Clin Pathol 1979;32:1222-5. (6.) Hoeffler DF. Recovery of Neisseria meningitidis from the nasopharynx. Comparison of two techniques. Am J Dis Child 1974;128:54-6. (7.) Cunningham R, Matthews R, Lewendon G, Harrison S, Stuart JM. Improved rate of isolation of Neisseria meningitidis by direct plating of pharyngeal swabs. J Clin Microbiol 2001 ;39:4575-6. (8.) Neal KR, Nguyen-Van-Tam J, Jeffrey N, Slack RC, Madeley RJ, Ait-Tahar K, et al. Changing carriage rate of Neisseria meningitidis among university students during the first week of term: cross sectional study. BMJ 2000;320:846-9. Hilary J. Orr, * Steve J. Gray, ([dagger]) Mary Macdonald, ([double dagger]) and James M. Stuart * (1) * Health Protection Agency (South West), Gloucester, England, United Kingdom; ([dagger]) Meningococcal Reference Unit, Manchester, England, United Kingdom; and ([double dagger]) County Hospital, Hereford, England, United Kingdom (1) H.O, was responsible for recruiting students, obtaining specimens, swabs, and drafting the paper with J.S.; S.G. and M.M. were responsible for microbiologic processing and analysis; and J.S. designed the study and drafted the paper with H.O. All authors contributed to the final draft. Ms. Orr is an epidemiology research nurse in southwest England, working for the Health Protection Agency. She has a research interest in the epidemiology of infectious diseases. Address for correspondence: James Stuart, Consultant Epidemiologist, Health Protection Agency (South West), Microbiology Laboratory, Gloucestershire Gloucestershire (glŏs`tərshĭr', glô`stər–), county (1991 pop. 520,600), 1,025 sq mi (2,655 sq km), W central England. The county seat is Gloucester. Royal Hospital, Gloucester GL1 3NN, England, UK; fax: ++44(0) 1452 412946; email: james.stuart@hpa.org.uk |
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