Clinical Trials Logo

Clinical Trial Summary

In this study, researchers will test the effectiveness of probiotic consumption against oral pathogenic bacteria and reduce the occurrence of gingival inflammation in subjects using orthodontic fixed appliances (braces). Lactobacillus reuteri is one of the probiotic bacteria that has been identified for its health benefits. L. reuteri produces antimicrobial substances, reuterin and reutericyclin which are active against wide range of pathogenic organisms. Previously, investigator performed a pilot study on the beneficial health effect of probiotic L. reuteri containing lozenges on a few orthodontic patients and it was proven that taking this probiotic for two weeks could significantly reduce the number of pathogenic bacteria in the patients' saliva. In vitro study showed that L. reuteri has the ability to modulate the inflammatory response such as TNF alpha and interleukins. However, The ability of L. reuteri in modulating the inflammatory response viz. Interleukin 1-beta, Interleukin 6, interleukin 8, interleukin 10, TNF alpha, MMP-9 and RANKL and effect on oral metagenomic microbiome profile in patients undergoing orthodontic treatment has not been previously investigated. Objective: 1. To evaluate the effect of consumption of L. reuteri Prodentis probiotic lozenges on the inflammatory response (inflammation) of gingival fluid. 2. To evaluate the effect of consumption of the probiotic lozenges of L. reuteri Prodentis against oral pathogens in dental plaque and saliva. Research Benefits: This study was conducted to observe the effectiveness of L. reuteri (ProDentis) probiotic against oral pathogenic bacteria on patients using orthodontic fixed appliance, to reduce gum inflammation and improve oral health.


Clinical Trial Description

Rationale and background of the study Aesthetics is a primary consideration for patients seeking orthodontic treatment. However, apart from esthetic aspects, the malalignment of teeth may also cause health concerns affecting oral function such as mastication, speech, and psychosocial problems due to impaired dentofacial aesthetics. Hence, the subjects undergoing fixed orthodontic treatment may come across several oral health related issues. The fixed orthodontic treatment is known to place the subject at risk of accumulation of heavy dental plaque which alters the symbiotic ecosystem of oral microbiome. This leads to dysbiotic oral micrbiome which harbore more pathogenic species. It has been shown pathogenic S. mutans, P. gingivalis, A. actinomycetemcomitans and C. albicans are present in orthodontic patients who do not pay enough attention to oral hygiene procedures. S. mutans is a facultative anaerobic Gram-positive oral bacteria that has an important role in developing dental caries. P. gingivalis and A. actinomycetemcomitans are an anaerobic Gram-negative oral bacteria associated with periodontitis. Data from The National Health and Nutrition Examination Survey (NHANES III) suggest 14% orthodontic patients in the US over 20 years of age have moderate to severe periodontitis. Moreover, presence and pathogenic potential of C. albicans in periodontal pocket of these patients has been shown. C. albicans is a robust biofilm-forming organism, presenting therapeutic complication. L. reuteri is a commensal oral probiotic bacterium, that is known to a produce antibacterial compound, reuterin. The structure of this broad-spectrum antimicrobial is related to hydroxypropionaldehyde, which formed during fermentation with glycerol. Previous studies have shown beneficial effect of reuterin against pathogenic oral bacteria. Moreover, it is safe to be used as chewing gums or yoghurts. Furthermore, previous study found that L. reuteri-containing gum was effective in reducing plaque accumulation and gingivitis in patient with moderate to severe gingivitis. Therefore, L. reuteri-containing chewing gum has considerable evidence to be used for the improvement of oral health. Preliminary data: As a pilot study, investigators collected saliva samples from eight orthodontic patients (mean age 21 years) before and two weeks after daily probiotic consumption. A duplicate sample was collected from each subject. The results showed significant reductions in S. mutans serotype c, S. mutans serotype d, P. gingivalis, and A. actinomycetemcomitans after probiotic consumption (p<0.05). Research gap: The ability of L. reuteri in modulating the inflammatory response viz. Interleukin 1 beta, Interleukin 6, interleukin 8, interleukin 10, TNF alpha, MMP-9 and RANKL and effect on oral metagenomic microbiome profile in patients undergoing orthodontic treatment has not been previously investigated. Materials and methods Lactobacillus reuteri Prodentis lozenges, along the placebos for comparison, were shipped from BioGaia, Stockholm, Sweden. Double-blinded numbering for the lozenges was done prior to shipment for the researchers to prevent bias, thus the only party that has information regarding the lozenges difference between the treatment and placebos is BioGaia. Neither the test subjects nor the researchers has the knowledge regarding the lozenges difference. BioGaia Prodentis lozenges is a food supplement for oral health containing the patented lactic acid bacterium Limosilactobacillus reuteri (formerly known as Lactobacillus reuteri) Prodentis (a strain combination of L. reuteri DSM 17938 and L. reuteriATCC PTA 5289) that helps the good microorganisms keep a natural balance in the mouth. This product is safe for daily use and the product can be used during pregnancy and breast-feeding. Ingredients of this poduct : bulking agent (isomalt), L. reuteri DSM 17938 and L. reuteri ATCC PTA 5289, fully hydrogenated palm oil, peppermint flavor, menthol flavor, peppermint oil and sweetener (sucralose). One lozenge consists of a minimum of 200 million live L. reuteriProdentis. Net weight per lozenge, 800 mg. Excessive consumption may have laxative effects due to the content of sweeteners in the product. Research subject: In order to evaluate its clinical efficacy, the probiotic L. reuteri-containing lozenges will be used for the patients undergoing fixed orthodontic therapy as previously described in the pilot study. A randomized controlled trial using a parallel design with 21 subjects in the test group and 21 subjects in the control group will be conducted. The sample size calculation was performed by assuming the control group will have no change in the oral pathogens whilst the test group will have a reduction observed in the pilot study. Considering the 2-sided test with 0.05 level of significance and 80% power in detecting such differences between the two groups, 21 subjects in each group would be required. Subjects are student volunteers or patients of Faculty of Dentistry, Trisakti University, undergoing orthodontic treatment with fixed appliance, with following inclusion criteria: age of 18-28 of either gender; undergoing orthodontic treatment with fixed appliance for the last one year; no consumption of probiotics (min. 3 months prior); no consumption of medicine such antibiotic (min 3 months prior) and PBI Score >1. The exclusion criteria are subject with systemic diseases and allergic to probiotic. Subjects were recruited by an undergoing graduate student that was part of the research team. Subject candidates that are reluctant or unwilling may directly decline the recruitment invitation wholeheartedly, therefore the volunteers that were recruited wholeheartedly agreed to become test subjects of this research. The recruited subjects will then be randomly assigned to the test. The time for 3 samples collection was carried out approximately 15 minutes. Sampling will be carried out at the executive clinic of the Faculty of Dentistry, Trisakti University Dental Hospital. Participants will be given toothpaste and toothbrush during the study period and subjects need to brush their teeth tiwce a day. Consumption of probiotics will be done 2 weeks after orthodontics control. Samples will be collected twice: on the first day (before consuming lozenges) and the 14th day after the subject consumed lozenges containing the probiotic L. reuteri. Probiotics are taken once a day for two weeks after breakfast and brushing teeth. Sample collection methods Prior to sample collection, it was first confirmed that every subject has undergone rapid antigen test for SARS-CoV2 detection due to the current Covid-19 pandemic (30th of September 2020), in which the result of the test must be a negative result for every patient. Negative result indicate that the subject has no past infection of SARS-CoV2. After confirmation, sample specimen from the subjects within the minimum of two-week period after orthodontics control, was collected by a dentist / medical specialist equipped with a complete set of personal protective equipment. Saliva sample is collected using draining method. The subject is made to sit quietly while bending down the head and opened mouth to allow the saliva to drip passively from the lower lip. Saliva is collected using a sterile, pre-weighted tubes. Subjects should be in a fasting state / two hours after breakfast. Subjects should not brush their teeth for a minimum of 45 minutes prior to saliva sampling collection. After saliva collection, it is recommended to store the saliva samples at -20oC, should the analysis not be done immediately. Additionaly, it is better to aliquot and freeze samples in several tubes to avoid freeze-thaw cycles that could degradate the saliva quality. Plaque sample is collected by swabbing all (buccal/mesial/distal/lingual/occlusal) surfaces of the individual permanent first molar using a sterile toothpick. Plaque sample was then transferred to a sterile phosphate-buffered saline (PBS). After collection, plaque sample is stored at -20oC until further analysis to be done. Gingival crevicular fluid (GCF) sample is collected using absorbent paper strip technique. An absorbent paper strip is gently placed to a several selected site . Strip is removed after light resistance is felt, approximately after being left for 30 seconds. Multiple paper strips for one subject is pooled into several 1.5 ml microcentrifuge tube containing 100 µl PBS at 4oC. The tubes were subsequently stored at -20oC and used for further analysis. Part I : Clinical trial to evaluate the efficacy of probiotic on gingival inflammatory response of orthodontic patients using ELISA method. In order to evaluate its clinical efficacy, the probiotic, L. reuteri-containing lozenges will be used for the patients undergoing fixed orthodontic therapy as previously described in the pilot study. Subjects in the test group will be given two weeks of daily consumption of the probiotic lozenges administered (2x108 CFU/tablet) after breakfast and tooth brushing. Samples will be collected from all the subjects on day one and day fourteen. The gingival crevicular fluid, saliva and dental plaque samples will be collected from the recruited subjects prior to the group allocation using standard methodology as previously described [30]. The collected samples will be stored in a cooler box and placed in laboratory refrigerator at -80°C. The samples will be used to analyze the Interleukin 1-beta, Interleukin 6, interleukin 8, interleukin 10, TNF alpha, MMP-9 and RANKL level using ELISA method (BioLegend, San Diego, USA). Part II: Clinical trial to evaluate the probiotic effect on metagenomic oral microbiome on orthodontic patients using NGS Saliva and plaque sample will be collected from each groups. Investigators will do microbiome profiling for 40 samples each sequencing run. Bacterial and fungal DNA of collected samples will be extracted using MoBio PowerSoil® DNA Isolation Kit or Qiagen QIAamp® DNA Mini Kit. Extraction method will follow the kit's manufacture protocol. Extracted DNA will be subjected to quality check using Nanodrop. Concentration of gDNA will be measured by using Qubit fluorometer. The recommended gDNA concentration from each sample is 5 ng/uL. Following quality control, V3-V4 regions of 16S and 18S rRNA gene of each sample will be amplified using PCR. During library preparation, yielded amplicons will be converted into library by using Nextera XT Index Kit (Illumina, US) accordingly to the manufacture's instruction. All resultant libraries will be evaluated by using Qubit fluorometer and will be sequenced using iSeq 100 platform (Illumina, US). Sequencing parameter will be 300 cycles with PhiX control spike-in of 5%. Visualized microbial profiling data from the sequence run can be viewed using Illumina Local Run Manager software. ;


Study Design


Related Conditions & MeSH terms

  • Healthy Subjects With Fixed Orthodontics

NCT number NCT04847960
Study type Interventional
Source Trisakti University
Contact
Status Active, not recruiting
Phase N/A
Start date March 22, 2021
Completion date March 2023