This prolonged study is the first to suggest that fixed retention offers the potential benefit of improved preservation of alignment of the mandibular labial segment in the long term. However, both types of retainers were associated with gingival inflammation and elevated plaque scores.
The data presented demonstrate a functional linkage between AM and NO in periodontal disease, with salivary and gingival crevicular fluid levels possibly associated with different forms and severities of periodontal disease. Exacerbated production of both AM and NO in saliva suggests their potential use as salivary markers of aggressive periodontitis.
Maternal periodontal infection has been recognized as a risk factor for preterm and low birthweight infants. It is suspected that pathogens causing periodontal disease may translocate to the amniotic cavity and so contribute to triggering an adverse pregnancy outcome. This study aimed to determine levels and proportions of periodontal bacteria in neonatal gastric aspirates obtained from complicated pregnancies and the respective maternal oral and vaginal samples using a quantitative polymerase chain reaction approach, and also to determine the origin of the neonate's bacteria by sequence comparisons between the three sites. Aggregatibacter actinomycetemcomitans and Tannerella forsythia were not observed in the neonates or in the women's vaginas. Interestingly, Porphyromonas gingivalis was identified in the neonates in two samples (2.98E+02 and 1.75E+02 cells ml(-1)) and in association with Fusobacterium nucleatum, which was observed at high prevalence (10%) and at high levels reaching up to 2.32E+03 cells ml(-1). Although F. nucleatum was also present in the vaginal samples, the results demonstrated that the neonatal strains were more likely to originate from the mother's oral cavity than to be vaginal strains.
Pathogens associated with aggressive periodontitis, A. actinomycetemcomitans and C. rectus, were more effective than those associated with chronic periodontitis, P. gingivalis and Prev. intermedia, and commensals, S. salivarius and V. atypica, as regards the upregulation of AM and NO production from oral keratinocytes. Interaction between these molecules was also demonstrated with macrophages. Understanding the coordinated regulation of AM and NO production in response to periodontal bacteria may identify ways to promote their protective effects and minimize destructive potential.
Background and Objective
Oral malodour is often observed in gingivitis and chronic periodontitis patients, and the tongue microbiota is thought to play a major role in malodorous gas production, including volatile sulphur compounds (VSCs) such as hydrogen sulphide (H2S) and methanethiol (CH3SH). This study aimed to examine the link between the presence of VSCs in mouth air (as a marker of oral malodour) and the oral bacterial ecology in the tongue and periodontal niches of healthy, gingivitis and periodontitis patients.
Methods
Participants were clinically assessed using plaque index, bleeding on probing (BOP) and periodontal probing depths, and VSC concentrations in their oral cavity measured using a portable gas chromatograph. Tongue scrapings, subgingival and interdental plaque were collected from healthy individuals (n = 22), and those with gingivitis (n = 14) or chronic periodontitis (n = 15). The bacterial 16S rRNA gene region V3‐V4 in these samples was sequenced, and the sequences were analysed using the minimum entropy decomposition pipeline.
Results
Elevated VSC concentrations and CH3SH:H2S were observed in periodontitis compared with health. Significant ecological differences were observed in the tongue microbiota of healthy subjects with high plaque scores compared to low plaque scores, suggesting a possible connection between the microbiota of the tongue and the periodontium and that key dysbiotic changes may be initiated in the clinically healthy individuals who have higher dental plaque accumulation. Greater subgingival bacterial diversity was positively associated with H2S in mouth air. Periodontopathic bacteria known to be prolific VSC producers increased in abundance on the tongue associated with increased bleeding on probing (BOP) and total percentage of periodontal pockets >6 mm, supporting the suggestion that the tongue may become a reservoir for periodontopathogens.
Conclusion
This study highlights the importance of the periodontal microbiota in malodour and has detected dysbiotic changes in the tongue microbiota in periodontitis.
Neonatal gastric aspirates (NGA) are routinely screened in UK hospitals to investigate fetal/ neonatal infections associated with cases of adverse pregnancy outcome (APO). The aim of this study was to describe and compare the microbiology of NGA from Caesarean and vaginal deliveries using molecular methods, and to evaluate other possible clinical and non-clinical variables that may have determined the presence of the bacteria in the samples. The value of using NGA and molecular methods to investigate potential pathogens associated with the risk of early infection was also evaluated. Bacteria were identified by a combined molecular approach on the basis of the 16S rRNA gene using both clone analysis and denaturing gradient gel electrophoresis. A total of 43 and 34 different species were identified in the vaginal (n5121) and Caesarean (n5119) deliveries, respectively; 26 of the species observed (51 %) were common to both modalities, although usually less prevalent in the Caesarean cases. Multivariate analysis confirmed an association between infection and prolonged rupture of membranes in vaginal deliveries (odds ratio55.7, 95 % confidence interval51.1-29.0). Various associations between infection and given variables were also shown, including labour, intrapartum antibiotic prophylaxis, and time and place of sample collection. The molecular methods allowed identification of a range of bacteria and potential sources not previously observed in NGA, including possible genito-urinary, gastrointestinal and oral pathogens. NGA represents a valuable sample for investigating potential pathogens associated with APO and the risk of early infection in neonates using molecular methods.
Background and Objective:
Oral malodour is often observed in gingivitis and chronic periodontitis patients, and the tongue microbiota is thought to play a major role in malodorous gas production, including Volatile Sulfur Compounds (VSCs) such as hydrogen sulfide (H2S) and methanethiol (CH3SH). This study aimed to examine the link between the presence of VSCs in mouth air (as a marker of oral malodour) and the oral bacterial ecology in the tongue and periodontal niches of healthy, gingivitis and periodontitis patients.
Methods:
Participants were clinically assessed using plaque index, bleeding on probing (BOP) and periodontal probing depths, and VSC concentrations in their oral cavity measured using a portable gas chromatograph. Tongue scrapings, subgingival and interdental plaque were collected from healthy individuals (n=22), and those with gingivitis (n=14) or chronic periodontitis (n=15). The bacterial 16S rRNA gene region V3-V4 in these samples was sequenced and the sequences analysed using the Minimum Entropy Decomposition pipeline.
Results:
Elevated VSC concentrations and CH3SH:H2S were observed in periodontitis compared to health. Significant ecological shifts were observed in the tongue microbiota of healthy subjects who had higher plaque scores, suggesting a possible connection between the microbiota of the tongue and the periodontium and that key dysbiotic changes may be initiated in the clinically healthy who have higher dental plaque accumulation. Greater subgingival bacterial diversity was positively associated with H2S in mouth air. Periodontopathic bacteria known to be prolific VSC producers increased in abundance on the tongue and this was associated with increased bleeding on probing (BOP) and a greater % of periodontal pockets >6mm, supporting the suggestion that the tongue may become a reservoir for periodontopathogens.
Conclusion:
This study highlights the importance of the periodontal microbiota in malodour and has detected dysbiotic changes in the tongue microbiota in periodontitis.
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