The Impact of Maltitol-Sweetened Chewing Gum on the Dental Plaque Biofilm Microbiota Composition

Overview

Journal Front Microbiol

Specialty Microbiology

Date 2018 Mar 22

PMID 29559963

Citations 11

Authors

Bart J F Keijser

Tim J van den Broek

Dagmar E Slot

Lodewic van Twillert

Jolanda Kool

Clementine Thabuis

Michel Ossendrijver

Fridus A Van der Weijden

Roy C Montijn

Affiliations

Soon will be listed here.

Abstract

The oral cavity harbors a complex microbial ecosystem, intimately related to oral health and disease. The use of polyol-sweetened gum is believed to benefit oral health through stimulation of salivary flow and impacting oral pathogenic bacteria. Maltitol is often used as sweetener in food products. This study aimed to establish the effects of frequent consumption of maltitol-sweetened chewing gum on the dental plaque microbiota in healthy volunteers and to establish the cellular and molecular effects by cultivation and transcriptional analysis. An intervention study was performed in 153 volunteers, randomly assigned to three groups (www.trialregister.nl; NTR4165). One group was requested to use maltitol gum five times daily, one group used gum-base, and the third group did not use chewing gum. At day 0 and day 28, 24 h-accumulated supragingival plaque was collected at the lingual sites of the lower jaw and the buccal sites of the upper jaw and analyzed by 16S ribosomal rRNA gene sequencing. At day 42, 2 weeks after completion of the study, lower-jaw samples were collected and analyzed. The upper buccal plaque microbiota composition had lower bacterial levels and higher relative abundances of (facultative) aerobic species compared to the lower lingual sites. There was no difference in bacterial community structure between any of the three study groups (PERMANOVA). Significant lower abundance of several bacterial phylotypes was found in maltitol gum group compared to the gum-base group, including HOT 852 and HOT 022. Cultivation studies confirmed growth inhibition of and by maltitol at levels of 1% and higher. Transcriptome analysis of revealed that exposure to maltitol resulted in changes in the expression of genes linked to osmoregulation, biofilm formation, and central carbon metabolism. The results showed that chewing itself only marginally impacted the plaque microbiota composition. Use of maltitol-sweetened gum lowered abundance of several bacterial species. Importantly, the species impacted play a key role in the early formation of dental biofilms. Further studies are required to establish if frequent use of maltitol gum impacts early dental-plaque biofilm development.

Citing Articles

Analysis of the microbial community diversity in various regions of the healthy oral cavity.

Liu Y, Qiao F, Wang Z, Meng G, Gu Y, Wu H BMC Oral Health. 2024; 24(1):978.

PMID: 39174963 PMC: 11342523. DOI: 10.1186/s12903-024-04677-w.

Supra- and Subgingival Microbiome in Gingivitis and Impact of Biofilm Control: A Comprehensive Review.

Iniesta M, Vasconcelos V, Sanz M, Herrera D Antibiotics (Basel). 2024; 13(6).

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Comparative characterization of supragingival plaque microbiomes in malocclusion adult female patients undergoing orthodontic treatment with removable aligners or fixed appliances: a descriptive cross-sectional study.

Zheng J, Wang X, Zhang T, Jiang J, Wu J Front Cell Infect Microbiol. 2024; 14:1350181.

PMID: 38803569 PMC: 11129559. DOI: 10.3389/fcimb.2024.1350181.

Attachment of Respiratory Pathogens and to Denture Base Materials-A Pilot Study.

Schmutzler A, Stingu C, Gunther E, Lang R, Fuchs F, Koenig A J Clin Med. 2023; 12(19).

PMID: 37834772 PMC: 10573319. DOI: 10.3390/jcm12196127.

Effects of sugar-free polyol chewing gums on gingival inflammation: a systematic review.

Soderling E, Pienihakkinen K, Gursoy U Clin Oral Investig. 2022; 26(12):6881-6891.

PMID: 36239787 PMC: 9708815. DOI: 10.1007/s00784-022-04729-x.

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