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Abstract

To better understand the microbial basis of oral malodor development in humans, we used a cross-sectional and longitudinal study design and the pyrosequencing approach to track and compare the tongue microbiota associated with oral malodor in 29 Chinese adults who underwent a consecutive three-day evaluation for the amount of H₂S excreted orally. Three levels of the oral malodor state (healthy, oral malodor, and severe oral malodor) were defined based on the H₂S level. Community structure of the tongue plaques was more sensitive to changes of malodor state than to interpersonal variations or differences in sampling times. Within each individual, the structure of microbiota was relatively stable, while their variations were correlated with the change in the H₂S level. Severe oral malodor microbiota were the most conserved in community structure, whereas the healthy ones were relatively varied. Oral-malodor-associated bacteria were identified. The relative abundance of Leptotrichia and Prevotella was positively correlated with oral malodor severity, whereas Hemophilus and Gemella exhibited a negative relationship with oral malodor severity. Our study provides one of the first landscapes of oral microbiota changes associated with oral malodor development and reveals microbes potentially useful to the evaluation and control of oral malodor.

Keywords

metagenome tongue high-throughput nucleotide sequencing Prevotella Leptotrichia hydrogen sulfide

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References

Ademovski

Persson

Winkel

Tangerman

Lingström

Renvert

(2013). The short-term treatment effects on the microbiota at the dorsum of the tongue in intra-oral halitosis patients—a randomized clinical trial. Clin Oral Investig 17:463-473.

De Boever

Loesche

(1995). Assessing the contribution of anaerobic microflora of the tongue to oral malodor. J Am Dent Assoc 126:1384-1393.

Farrell

Zhang

Zhou

Chia

Elashoff

Akin

. (2012). Variations of oral microbiota are associated with pancreatic diseases including pancreatic cancer. Gut 61:582-588.

Griffen

Beall

Firestone

Gross

Difranco

Hardman

. (2011). CORE: a phylogenetically-curated 16S rDNA database of the core oral microbiome. PloS One 6:e19051.

Griffen

Beall

Campbell

Firestone

Kumar

Yang

. (2012). Distinct and complex bacterial profiles in human periodontitis and health revealed by 16S pyrosequencing. ISME J 6:1176-1185.

Haraszthy

Zambon

Sreenivasan

Zambon

Gerber

Rego

. (2007). Identification of oral bacterial species associated with halitosis. J Am Dent Assoc 138:1113-1120.

Huang

Yang

Zeng

Chen

Wen

. (2011). Preliminary characterization of the oral microbiota of Chinese adults with and without gingivitis. BMC Oral Health 11:33.

Hill

Walsh

Harris

Moffett

(2003). Using ecological diversity measures with bacterial communities. FEMS Microbiol Ecol 43:1-11.

Hung

Chen

Tseng

Liaw

Tsai

Hsueh

. (2012). Genetic and transcriptional organization of the groEL operon containing trxA in Gemella morbillorum. Gene 497:307-313.

10.

Kazor

Mitchell

Lee

Stokes

Loesche

Dewhirst

. (2003). Diversity of bacterial populations on the tongue dorsa of patients with halitosis and healthy patients. J Clin Microbiol 41:558-563.

11.

Lee

Zhang

(2007). Halitosis update: a review of causes, diagnoses, and treatments. J Calif Dent Assoc 35:258-260, 262, 264-258.

12.

Romero-Gonzalez

Banwart

Huang

(2012). Single cell Raman spectroscopy for cell sorting and imaging. Curr Opin Biotechnol 23:56-63.

13.

Liu

Shinada

Chen

Zhang

Yaegaki

Kawaguchi

(2006). Oral malodor-related parameters in the Chinese general population. J Clin Periodontol 33:31-36.

14.

Loesche

Kazor

(2002). Microbiology and treatment of halitosis. Periodontol 2000 28:256-279.

15.

Muegge

Kuczynski

Knights

Clemente

González

Fontana

. (2011). Diet drives convergence in gut microbiome functions across mammalian phylogeny and within humans. Science 332:970-974.

16.

Persson

Edlund

Claesson

Carlsson

(1990). The formation of hydrogen sulfide and methyl mercaptan by oral bacteria. Oral Microbiol Immunol 5:195-201.

17.

Peterson

Snesrud

Schork

Bretz

(2011). Dental caries pathogenicity: a genomic and metagenomic perspective. Int Dent J 61(Suppl 1):11-22.

18.

Schloss

Westcott

Ryabin

Hall

Hartmann

Hollister

. (2009). Introducing MOTHUR: open-source, platform-independent, community-supported software for describing and comparing microbial communities. Appl Environ Microbiol 75:7537-7541.

19.

Schloss

Gevers

Westcott

(2011). Reducing the effects of PCR amplification and sequencing artifacts on 16S rRNA-based studies. PLoS One 6:e27310.

20.

Scully

Greenman

(2012). Halitology (breath odour: aetiopathogenesis and management). Oral Dis 18:333-345.

21.

Stassinakis

Hugo

Hotz

(2002). Halitosis: causes, diagnosis and treatment. Schweiz Monatsschr Zahnmed 112:226-237.

22.

Takeshita

Suzuki

Nakano

Shimazaki

Yoneda

Hirofuji

. (2010). Relationship between oral malodor and the global composition of indigenous bacterial populations in saliva. Appl Environ Microbiol 76:2806-2814.

23.

Takeshita

Suzuki

Nakano

Yasui

Yoneda

Shimazaki

. (2012). Discrimination of the oral microbiota associated with high hydrogen sulfide and methyl mercaptan production. Sci Rep 2:215.

24.

Tanaka

Yamamoto

Kuboniwa

Nonaka

Nishida

Maeda

. (2004). Contribution of periodontal pathogens on tongue dorsa analyzed with real-time PCR to oral malodor. Microbes Infect 6:1078-1083.

25.

Tyrrell

Citron

Warren

Nachnani

Goldstein

(2003). Anaerobic bacteria cultured from the tongue dorsum of subjects with oral malodor. Anaerobe 9:243-246.

26.

Washio

Sato

Koseki

Takahashi

(2005). Hydrogen sulfide-producing bacteria in tongue biofilm and their relationship with oral malodour. J Med Microbiol 54(Pt 9):889-895.

27.

Yaegaki

Coil

(2000). Examination, classification, and treatment of halitosis; clinical perspectives. J Can Dent Assoc 66:257-261.

28.

Yaegaki

Sanada

(1992). Biochemical and clinical factors influencing oral malodor in periodontal patients. J Periodontol 63:783-789.

29.

Yang

Zeng

Ning

Liu

Wang

. (2012). Saliva microbiomes distinguish caries-active from healthy human populations. ISME J 6:1-10.

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Microbial Basis of Oral Malodor Development in Humans

Abstract

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