Detection of meningococcus, pneumococcus, Haemophilus influenzae, and group A streptococcus DNA in pediatric adenoid bioptats

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Abstract

Meningococcal, pneumococcal, streptococcal A and Haemophilus influenzae infections are manifested in different clinical forms, ranging from bacterial carriage to generalized life-threatening conditions. However, a connection between bacterial carriage and disease development has not been fully explored. A PCR assay was performed with adenoid biopsy samples collected from 112 children after planned adenotomy to detect Neisseria meningitidis, Streptococcus pneumoniae, Streptococcus pyogenes, H. influenzae carriage. A DNA specific to at least one of the four studied microbial species was found in 104 samples (92.86%) so that: meningococcal DNA was detected in one sample (0.9%), pneumococcal — in 98 (87.5%), H. influenzae — in 19 (16.96%), and streptococcal A — in 42 (37.5%) samples. However, none of these species was found in 8 children (7.14%). A sole S. pneumoniae was detected in 54 samples (48.2%), whereas S. pyogenes — in 5 samples (4.5%). Moreover, two bacterial species were simultaneously as follows: N. meningitidis and S. pneumoniae — in 1 sample (0.9%), S. pneumoniae and H. influenzae — in 7 samples (6.3%); H. influenzae and S. pyogenes — in 1 sample (0.9%); S. pneumoniae and S. pyogenes — in 25 samples (22.3%). A triple combination consisting of S. pneumoniae, H. influenzae and S. pyogenes bacteria were detected together in 11 patients (9.8%). Meningococcal serogrouping revealed no connection with any of the 6 most common global serogroups responsible for epidemic incidence rise (A, B, C, W-135, X, Y). A clear tendency for prevalence of S. pyogenes DNA in adenoid pediatric biopsies in children diagnosed with “Adenoids and tonsils hypertrophy” vs. “Adenoids hypertrophy” was observed. It is noteworthy, a high relative prevalence of pneumococcal carriage (87.5%), found by us was of special importance. Pediatric carriers serving as a reservoir for virulent pneumococcal species pose a threat both for themselves and surrounding people. Thus, PCR-based data of adenoid biopsies may be a promising approach for future studies, as a potential to identify live viable but nonculturable bacteria in clinical specimens will contribute to a more accurate assessment of carriage rate of meningococci, pneumococci, H. influenzae and group A streptococci.

About the authors

S. Yu. Kombarova

G.N. Gabrichevsky Research Institute for Epidemiology and Microbiology

Author for correspondence.
Email: kombarova311@bk.ru

Kombarova S.Yu., PhD, MD (Biology), Deputy Director on Science, Head of Laboratory of Coccoid Infections.

Russian Federation

A. M. Bichucher

G.N. Gabrichevsky Research Institute for Epidemiology and Microbiology

Email: bichuch@bk.ru

PhD (Biology), Senior Researcher, Laboratory of Coccoid Infections.

Moscow

Russian Federation

Y. L. Soldatsky

Morozovskaya Children’s City Clinical Hospital

Email: ysoldatsky@mail.ru

PhD, MD (Medicine), Professor, Head of Department of Otorhinolaryngology.

Moscow Russian Federation

R. Yu. Yunusova

G.N. Gabrichevsky Research Institute for Epidemiology and Microbiology

Email: proteika@mail.ru

PhD (Biology), Senior Researcher, Laboratory of Coccoid Infections.

Moscow Russian Federation

T. A. Skirda

G.N. Gabrichevsky Research Institute for Epidemiology and Microbiology

Email: t.skirda@mail.ru

PhD (Medicine), Principal Investigator, Laboratory of Coccoid Infections.

Moscow Russian Federation

I. G. Martynenko

G.N. Gabrichevsky Research Institute for Epidemiology and Microbiology

Email: m-i-g@mail.ru

Researcher, Laboratory of Coccoid Infections.

Moscow

Russian Federation

L. I. Golovina

G.N. Gabrichevsky Research Institute for Epidemiology and Microbiology

Email: kombarova311@bk.ru

PhD (Medicine), Senior Researcher, Laboratory of Coccoid Infections.

Moscow Russian Federation

S. R. Edgem

Morozovskaya Children’s City Clinical Hospital

Email: ysoldatsky@mail.ru

PhD (Medicine), Otorhinolaryngologist.

Moscow

Russian Federation

T. V. Severin

Morozovskaya Children’s City Clinical Hospital

Email: ysoldatsky@mail.ru

Otorhinolaryngologist.

Moscow

Russian Federation

V. G. Melnikov

G.N. Gabrichevsky Research Institute for Epidemiology and Microbiology

Email: goutch@mail.ru
ORCID iD: 0000-0002-0825-7930

PhD (Medicine), Principal Investigator, Laboratory of Coccoid Infections.

Moscow

Russian Federation

References

  1. Баранов А., Брико Н., Намазова-Баранова Л., Ряпис Л. Стрептококки и пневмококки. Ростов-на-Дону: Феникс, 2013. 301 с.
  2. Бахарева Н.В., Протасова И.Н., Перьянова О.В., Кукушкина И.П., Мемнонова С.В., Коваль М.В. Бактерионосительство пневмококков среди детей города Красноярска // Эпидемиология и вакцинопрофилактика. 2012. № 4. C. 73—77.
  3. Королева И.С., Максина Т.А., Закроева И.М., Лыткина И.Н., Пяева А.П., Маликов В.Е., Соловьева Л.Я. Критерии значимости менингококкового носительства в очагах менингококковой инфекции // Медицинский aлфавит. 2013. Т. 4, № 24. С. 31-33.
  4. Королева М.А., Покровский В.И., Миронов К.О., Платонов А.Е., Шипулин Г.А., Белошицкий Г.В., Закроева И.М., Мельникова А.А., Кошкина Н.А., Королева И.С. Эпидемиологический мониторинг за гнойными бактериальными менингитами в историческом и современных аспектах // Эпидемиология и инфекционные болезни. Актуальные вопросы. 2014. № 2. С. 73-79.
  5. Костюкова Н.Н., Бехало В.А. От безвредного носительства к гнойному бактериальному менингиту // Эпидемиология и инфекционные болезни. Актуальные вопросы. 2013. № 2. С. 46-52.
  6. Миронов К.О. Клональные комплексы Neisseria meningitidis, циркулирующие на территории России, и их роль в эпидемическом процессе менингококковой инфекции // Эпидемиология и инфекционные болезни. Актуальные вопросы. 2016. № 6. С. 52-61.
  7. Мулюкин А.Л., Сузина Н.Е., Мельников В.Г., Гальченко В.Ф., Эль-Регистан Г.И. Состояние покоя и фенотипическая вариабельность у Staphylococcus aureus и Corynebacterium pseudodiphtheriticum // Микробиология. 2014. Т. 83, № 1. С. 1527.
  8. Намазова-Баранова Л.С., Баранов А.А. Антибиотикорезистентность в современном мире // Педиатрическая фармакология. 2017. Т. 14, № 5. С. 341-354.
  9. Покровский В.И., Фаворова Л.А., Костюкова Н.Н. Менингококковая инфекция. М.: Медицина, 1976. 272 с.
  10. Протасова И.Н., Перьянова О.В., Бахарева Н.В., Салмина А.Б., Рева И.В., Такано Т., Ивао Я., Ямамото Т., Сидоренко С.В., Мельников В.Г. Чувствительность к антибиотикам пневмококков, выделенных у детей города Красноярска // Клиническая микробиология и антимикробная химиотерапия. 2014. Т. 16, № 2. С. 144—148.
  11. Русецкий Ю.Ю., Седых Т.К., Чернышенко И.О., Смирнова В.А. Сравнительное бактериологическое исследование микрофлоры поверхности и биоптатов миндалин у детей с патологией лимфоаденоидного глоточного кольца // Педиатрия. 2012. Т. 91, № 2. С. 52-56.
  12. Чагина И.А., Борисова О.Ю., Мельников В.Г., Ивашинникова Г.А., Пименова А.С., Донских Е.Е., Кафарская Л.И., Алешкин В.А. Чувствительность штаммов Corynebacterium diphtheriae к антибактериальным препаратам // Журнал эпидемиологии, микробиологии и иммунобиологии. 2014. № 4. С. 8-13.
  13. Blanchette-Cain K., Hinojosa C.A., Akula Suresh Babu R., Lizcano A., Gonzalez-Juarbe N., Munoz-Almagro C., Sanchez C.J., Bergman M.A., Orihuela C.J. Streptococcus pneumoniae biofilm formation is strain dependent, multifactorial, and associated with reduced invasiveness and immunoreactivity during colonization. mBio, 2013, vol. 4, no. 5: e00745-13. doi: 10.1128/mBio.00745-13
  14. Greiner O., Berger C., Day P.J.R., Meier G., Tang C.M., Nadal D. Rates of detection of Neisseria meningitidis in tonsils differ in relation to local incidence of invasive disease. J. Clin. Microbiol., 2002, vol. 40, no. 11, pp. 3917—3921. doi: 10.1128/JCM.40.11.3917-3921.2002
  15. Johnston J.J., Douglas R. Adenotonsillar microbiome: an update. Postgrad. Med. J., 2018, vol. 94, no. 1113, pp. 398—403. doi: 10.1136/postgradmedj-2018-135602
  16. Kanmani P., Clua P., Vizoso Pinto M.G., Rodriguez C., Salva S., Alvarez S., Melnikov V., Kitazawa H., Villena J. Respiratory commensal bacteria Corynebacterium pseudodiphtheriticum improves resistance of infant mice to respiratory syncytial virus and Streptococcus pneumoniae superinfection. Front. Microbiol., 2017, vol. 8:1613. doi: 10.3389/fmicb.2017.01613
  17. Kiryukhina N.V., Melnikov V.G., Suvorov A.V., Morozova Yu.A., Ilyin V.K. Use of Corynebacterium pseudodiphtheriticum for elimination of Staphylococcus aureus from the nasal cavity in volunteers exposed to abnormal microclimate and altered gaseous environment. ProbioticsAntimicrob. Proteins, 2013, vol. 5, no. 4,pp. 233—238. doi: 10.1007/s12602-013-9147-x
  18. Laboratory methods for the diagnosis of meningitis caused by N. meningitidis, H. influenzae and S. pneumoniae. WHO Manual, 2nd ed. WHO/IVB.11.09, 2011.
  19. Krismer B., Weidenmaier C., Zipperer A., Peschel A. The commensal lifestyle of Staphylococcus aureus and its interactions with the nasal microbiota. Nat. Rev. Microbiol., 2017, vol. 15, no. 11,pp. 675—687. doi: 10.1038/nrmicro.2017.104
  20. Lindroos R. Bacteriology of the tonsil core in recurrent tonsillitis and tonsillar hyperplasia — a short review. Acta Otolaryngol., 2000, suppl. 543, pp. 206—208.
  21. Mori J., Nishiyma Y., Yokoshi N., Kimuri Y. Olfactory transmission of neurotropic viruses. J. Neurovirol., 2005, vol. 11, pp. 129-137.
  22. Neal K.R., Nguyen-Van-Tam J.S., Jeffrey N., Slack R.C., Madeley R.J., Ait-Tahar K., Job K., Wale M.C., Ala’Aldeen D.A. Changing carriage rate of Neisseria meningitidis among university students during the first week of term: cross sectional study. BMJ, 2000, vol. 320, no. 7238, pp. 846-849.
  23. O’Brien K.L., Wolfson L.J., Watt J.P., Henkle E., Deloria-Knoll M., McCall N., Lee E., Mulholland K., Levine O.S., Cherian T., Hib and Pneumococcal Global Burden of Disease Study Team. Burden of disease caused by Streptococcus pneumoniae in children younger than 5 years: global estimates. Lancet, 2009, vol. 374, pp. 893-902. doi: 10.1016/S0140-6736(09)61204-6
  24. Ramirez A., Peidrola D., Lopez A., Martinez M.D., Ros M.J., Corral J.L., Arteaga E. Beta-hemolytic streptococci in tonsil hypertrophy and recurrent tonsillitis. Enferm. Infecc. Microbiol. Clin., 1997, vol. 15, no. 6, pp. 315-318.
  25. Rizek C.F., Luiz A.M., Assis G.R., Costa S.F., Levin A.S., Lopez M.H. Comparison of methods to identify Neisseria meningitidis in asymptomatic carriers. Rev. Inst. Med. Trop. Sao Paulo, 2016, vol. 58, no. 121112: 60.
  26. Sim R.J., Harrison M.M., Moxon E.R., Tang C.M. Underestimation of meningococci in tonsillar tissue by nasopharyngeal swabbing. Lancet, 2000, vol. 356, pp. 1653-1654.
  27. Sjolinder H., Jonsson A.B. Olfactory nerve — a novel invasion route of Neisseria meningitidis to reach the meninges. PLoS One, 2010, vol. 5, no. 11: e14034. doi: 10.1371/journal.pone.0014034
  28. Suvorov A., Karaseva A., Kotyleva M., Kondratenko Y., Lavrenova N., Korobeynikov A., Kozyrev P., Kramskaya T., Leontieva G., Kudryavtsev I., Guo D., Lapidus A. and Ermolenko E. Autoprobiotics as an approach for restoration of personalised microbiota. Front. Microbiol, 2018, vol. 9:1869.
  29. Tan S.Y., Chew S.C., Tan S.Y., Givskov M., Yang L. Emerging frontiers in detection and control of bacterial biofilms. Curr. Opin. Biotechnol., 2014, vol. 26,pp. 1-6. doi: 10.1016/j.copbio.2013.08.002
  30. Villena J., Laino J., Suvorov A., Melnikov V.G., Alvarez S. Immunobiotic and recombinant lactic acid bacteria: soldiers in the fight against Streptococcus pneumoniae. Recent Trends Immunol., 2015, 30p. URL: https://smjournals.com/ebooks/recent-trends-in-immunology/chapters/RTI-15-03.pdf
  31. Weber M.V., Claus H., Maiden M.C., Frosch M., Vogel U. Genetic mechanisms for loss of encapsulation in polysialyltransferase-genes-positive meningococci isolated from healthy carriers. Int. J. Med. Microbiol., 2006, vol. 296, no. 7, pp. 475—484.
  32. Wilder-Smith A., Paton N.I., Barkham T.M., Earnest A. Meningococcal carriage in Umra pilgrims returning from Saudi Arabia. J. Travel Med, 2003, vol. 10, no. 3, pp. 147—149.

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Copyright (c) 2020 Kombarova S.Y., Bichucher A.M., Soldatsky Y.L., Yunusova R.Y., Skirda T.A., Martynenko I.G., Golovina L.I., Edgem S.R., Severin T.V., Melnikov V.G.

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