pH gradient and distribution of streptococci, lactobacilli, prevotellae, and fusobacteria in carious dentine

Kianoush, Nima; Nguyen, Ky-Anh; Browne, Gina V.; Simonian, Mary; Hunter, Neil

doi:10.1007/s00784-013-1009-0

Cited by 17 publications

(14 citation statements)

References 62 publications

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“…Differences in the microbiome composition from enamel (coronal) to dentin caries and increased diversity in dentin caries was observed in a metagenomic analysis [13] as in the current report. The pH of dentin caries was found to vary considerably ranging from pH 4.5 to over pH 7, with the different microbiotas being associated with various levels of acidity [28], consistent with the diversity in the microbiota in dentin caries sites observed of the current report.…”

Section: Discussionsupporting

confidence: 85%

“…ADS and urease have been associated with reduced caries activity based on ammonia production and raising the pH to counterbalance acidic conditions typical of active caries [43]. It seems likely these enzymes also involved in the higher pH found deep in in dentin compared to the tooth surface [28]. Linking ADS with S. sanguinis and urease with A. naeslundii in the microbial community is consistent with the metabolic properties of these species.…”

Section: Discussionmentioning

confidence: 71%

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Functional profiles of coronal and dentin caries in children

Kressirer

Chen

Harriman³

et al. 2018

Journal of Oral Microbiology

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Background: Dental caries results from a dysbiosis of tooth-associated biofilms and frequently extends through enamel into dentin which has a different structure and composition.Objective: To evaluate the metatranscriptome of caries to determine the metabolic potential of caries communities compared with health.Design: Samples from children, caries-free (CF: n = 4) or with coronal (CC: n = 5) or dentin (DC: n = 5) caries were examined for gene expression potential. Functional profiling was performed using HUMAnN2 (HMP Unified Metabolic Analysis Network).Results: There was increased gene expression diversity in DC compared with CC and CF. Genes in CF included alcohol dehydrogenase from Neisseria sicca, methylenetetrahydrofolate reductase from Streptococcus sanguinis and choline kinase from streptococci. Genes in CC mapped mainly to Streptococcus mutans. Arginine deiminase in DC mapped to S. sanguinis and Actinomyces naeslundii. Glycerol kinase genes mapped to S. sanguinis in all groups whereas glycerol kinase in DC were from Rothia, Prevotella and streptococci. Uracil-DNA glycosylase in DC mapped to Prevotella denticola and Actinomyces. Repressor LexA in DC mapped to Scardovia wiggsiae, Dialister invisus and Veillonella parvula.Conclusions: Functional profiling revealed enzyme activities in both caries and caries-free communities and clarified marked differences between coronal and dentin caries in bacterial composition and potential gene expression.

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Section: Discussionsupporting

confidence: 85%

Section: Discussionmentioning

confidence: 71%

Functional profiles of coronal and dentin caries in children

Kressirer

Chen

Harriman³

et al. 2018

Journal of Oral Microbiology

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“…Less aggressive cariogenic microbiomes appear to include other acidogenic species, such as Streptococcus, Actinomyces , and other taxa in Actinobacteria (Belda-Ferre et al 2012; Eriksson et al 2018). Caries in dentin, including root caries, can be characterized by Lactobacillus, Bifidobacterium , and Scardovia species in addition to S. mutans (Mantzourani et al 2009; Kianoush et al 2014), suggesting rapid disease progression, although proteolytic species may be cariogenic in deep dentin. Shifts in predominant caries-associated microbiomes in different stages and sites of caries lesions are determined by environmental ecologic factors (Takahashi and Nyvad 2016; Fig.…”

Section: Composition Of the Oral Microbiota Based On Open-ended Technmentioning

confidence: 99%

The Role of Bacterial Biofilms in Dental Caries and Periodontal and Peri-implant Diseases: A Historical Perspective

2019

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Over the last hundred years, groundbreaking research in oral microbiology has provided a broad and deep understanding about the oral microbiome, its interactions with our body, and how the community can affect our health, be protective, or lead to the development of dental diseases. During this exciting journey, hypotheses were proposed, and concepts were established, discarded, and later revisited from updated perspectives. Dental plaque, previously considered a polymicrobial community of unspecific pathogenicity, is recognized as microbial biofilms with healthy, cariogenic, or periodontopathogenic profiles, resulting from specific ecologic determinants and host factors. The “one pathogen, one disease” paradigm of oral infections has been replaced by a holistic concept of a microbial community as the entity of pathogenicity. Cutting-edge technology can now explore large microbial communities related to different clinical conditions, which has led to finding several novel disease-associated species and potential pathobionts and pathobiomes. This vast amount of data generated over time has widened our view of the etiology of caries and periodontal and peri-implant diseases and has promoted updated strategies to treat and prevent the oral diseases.

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“…For instance, healthy children (from 3 months old) already harbor potentially cariogenic bacteria ( S. mutans ), which increase in abundance with age [35, 52]. Additionally, among 3-month old children, Increased presence of Lactobacilli, a taxon that tends to dominate carious lesions [41, 53] may be predictive of caries at 3 years [34]. These observations suggest that a combination of extrinsic and intrinsic factors determine oral disease phenotypes later in childhood.…”

Section: The Oral Microenvironment and Biomarkers Of Oral Disease mentioning

confidence: 99%

The Oral Microbiome of Children: Development, Disease, and Implications Beyond Oral Health

2016

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In the era of applied meta-omics and personalized medicine, the oral microbiome is a valuable asset. From biomarker discovery to being a powerful source of therapeutic targets, and to presenting an opportunity for developing non-invasive approaches to health care, it has become clear that oral microbes may hold the answer for understanding disease, even beyond the oral cavity. Although our understanding of oral microbiome diversity has come a long way in the past 50 years, there are still many areas that need to be fine-tuned for better risk assessment and diagnosis, especially in early developmental stages of human life. Here, we discuss the factors that impact development of the oral microbiome, and explore oral markers of disease, with a focus on the early oral cavity. Our ultimate goal is to put different experimental and methodological views into perspective for better assessment of early oral and systemic disease at an early age, and discuss how oral microbiomes- at the community level, could provide improved assessment in individuals, and populations at risk.

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pH gradient and distribution of streptococci, lactobacilli, prevotellae, and fusobacteria in carious dentine

Cited by 17 publications

References 62 publications

Functional profiles of coronal and dentin caries in children

Functional profiles of coronal and dentin caries in children

The Role of Bacterial Biofilms in Dental Caries and Periodontal and Peri-implant Diseases: A Historical Perspective

The Oral Microbiome of Children: Development, Disease, and Implications Beyond Oral Health

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