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Probiotics Partly Suppress the Impact of Sugar Stress on the Oral Microbiota-A Randomized, Double-Blinded, Placebo-Controlled Trial.
Lundtorp Olsen, C, Massarenti, L, Vendius, VFD, Gürsoy, UK, Van Splunter, A, Bikker, FJ, Gürsoy, M, Damgaard, C, Markvart, M, Belstrøm, D
Nutrients. 2023;15(22)
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In oral health, the oral microbiota thrives with the human host, whereas dysbiotic compositional changes are associated with development of oral diseases. Free sugars constitute the most important dietary risk factor for the development of dental caries, with a dose-response relationship. The aim of this study was to determine if consumption of probiotic lozenges containing an equal mix of L. rhamnosus PB01 DSM14870 and L. curvatus EB10 DSM32307 and xylitol could counteract oral dysbiosis in the supragingival microbiota. This study was a quadruple-blinded (participant, care provider, investigator, outcome assessor), randomised, placebo-controlled, clinical trial. This study recruited eighty orally and systemically healthy individuals aged 19–31 years. Participants were randomly assigned to the placebo or intervention group. Results showed that probiotics partly counteract sugar-mediated loss of diversity in the supragingival microbiota, which was observed in the placebo group. Consequently, from a microbiological point of view, the probiotic supplement augmented resilience of the supragingival microbiota in the resolution period after sugar stress. Authors concluded that probiotics affect the composition of the supragingival microbiota during short-term sugar stress in healthy individuals.
Abstract
The aim was to test if probiotics counteract oral dysbiosis during 14 days of sugar stress and subsequently help restore oral homeostasis. Eighty healthy individuals received either probiotics (n = 40) or placebo lozenges (n = 40) for 28 days and rinsed with a 10% sucrose solution 6-8 times during the initial 14 days of the trial. Saliva and supragingival samples were collected at baseline, day 14, and day 28. Saliva samples were analyzed for levels of pro-inflammatory cytokines, albumin, and salivary enzyme activity. The supragingival microbiota was characterized according to the Human Oral Microbiome Database. After 14 days of sugar stress, the relative abundance of Porphyromonas species was significantly higher (p = 0.03) and remained significantly elevated at day 28 in the probiotic group compared to the placebo group (p = 0.004). At day 28, the relative abundance of Kingella species was significantly higher in the probiotic group (p = 0.03). Streptococcus gordinii and Neisseria elongata were associated with the probiotic group on day 28, while Streptococcus sobrinus was associated with the placebo group on day 14 and day 28. On day 28, the salivary albumin level was significantly lower in the probiotic group. The present study demonstrates a potential stabilizing effect on the supragingival microbiota mediated by consumption of probiotics during short-term sugar stress.
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Effect of Lacticaseibacillus paracasei N1115 on Immunomodulatory and Gut Microbial Composition in Young Children: A Randomized, Placebo-Controlled Study.
Li, P, Ren, Z, Zhou, J, Zhao, A, Wang, S, Xun, Y, Jiang, H, Wang, P, Yuan, Q, Zhang, Y
Nutrients. 2023;15(8)
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Cesarean section (C-section) is one of the most common obstetrical procedures, and China is among the countries with the highest C-section rates in the world. Lactobacillus is one of the well-known and most studied probiotics and has a broad distribution in the human oral cavity, genitourinary tract, gastrointestinal tract, and milk. The aim of this study was to investigate the efficacy of Lp N1115 as a probiotic on immunomodulatory and gut microbial composition in Chinese infants and toddlers born by C-section. This study was a single-centre, randomised, triple-blind placebo-controlled trial. Healthy infants born by C-section were recruited at the age of 6–24 months and divided into two age groups: 6–12 months and 13–24 months. Infants and toddlers were randomly assigned to either the experimental group (Lp N1115 group) or the placebo-control group. Results showed that Lp N1115 can help maintain the intestinal pH of infants aged 6–24 months after C-section, improve immune function, and promote the proliferation of Lactobacillus. Furthermore, Lp N1115 could increase faecal secreted immunoglobulin A levels and, to some extent, reduce cortisol levels in infants and children. Authors conclude that the beneficial effects of Lp N1115 on gut development were more obvious in 6–12-month-old infants.
Abstract
Lactobacillus paracasei N1115 (Lp N1115) was isolated from fermented milk products. The administration of Lp N1115 is safe and well tolerated in Chinese children, but its effectiveness among young Chinese children is still unclear. To investigate the efficacy of Lp N1115 as a probiotic to enhance gut development in Chinese infants and toddlers born by cesarean section, 109 healthy and cesarean-delivered infants aged 6-24 months were recruited for a 12-week randomized, placebo-controlled trial, with 101 finally completing the study. Saliva and stool samples were collected and detected at weeks 0, 4, 8, and 12 of the intervention. Statistical analyses were performed by using a per-protocol (PP) approach. After 12 weeks of intervention, the fecal pH in the control group increased (p = 0.003), while the fecal pH in the experimental group did not change. Salivary cortisol decreased from baseline in the experimental group (p = 0.023), while the control group showed little change. In addition, Lp N1115 increased the fecal sIgA content of infants aged 6-12 months (p = 0.044) but had no obvious effect on fecal calprotectin and saliva sIgA. At week 4, the increase in Lactobacillus relative to baseline was higher in the experimental group than in the control group (p = 0.019). Further analysis showed a trend toward a higher detection rate of Lactobacillus in the experimental group than in the control group (p = 0.039). In conclusion, Lp N1115 was able to enhance the content of Lactobacillus and maintain fecal pH levels. Its beneficial effects on gut development were more obvious in 6-12-month-old infants.
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The Effect of Dietary Advice Aimed at Increasing Protein Intake on Oral Health and Oral Microbiota in Older Adults: A Randomized Controlled Trial.
Fluitman, KS, van den Broek, T, Reinders, I, Wijnhoven, HAH, Nieuwdorp, M, Visser, M, IJzerman, RG, Keijser, BJF
Nutrients. 2023;15(21)
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It is well-established that nutrition and oral health are closely related. This relationship is especially evident in older adults, in whom both oral health and nutritional status are often compromised. The aim of this study was to evaluate the effect of the intervention on oral health and the oral microbiota composition in community-dwelling older adults. This study was part of the 6-month, multicentre, randomised controlled PROMISS trial which randomly assigned participants into 3 groups. For this study a total of 90 participants were included, 47 from the high protein group and 43 from the control group. Results showed that increasing protein intake from an average of 0.8 g/kg adjusted body weight/day (aBW/d) to 1.2 g/kg aBW/d does not affect self-reported oral health status in older adults. Moreover, whereas moderate effects were observed on the overall microbiota composition based on alpha- and beta-diversity measures, no individual bacterial taxa were found to be specifically affected. Authors concluded that dietary advice aimed at increasing protein intake to at least 1.2 g/kg aBW/d in older adults with habitual low protein intake did not significantly improve self-reported oral health.
Abstract
Nutrition and oral health are closely related, especially in older adults in whom poor nutrition may lead to oral microbial perturbations, exacerbating poor oral health. In a 6-month randomized controlled trial, we evaluated the effects on oral microbiota and on oral health of dietary advice aimed at increasing protein intake to ≥1.2 g/kg adjusted body weight/day (g/kg aBW/d) in community-dwelling older adults with low habitual protein intake (<1.0 g/kg aBW/d). Food intake was measured via 24 h dietary recalls, oral health was measured via questionnaires, and oral microbial composition was assessed via the 16S rRNA sequencing of tongue swabs. Mean baseline protein intake was 0.8 g/kg aBW/day in both groups. In the high protein group (n = 47), participants increased their protein intake to mean 1.2 g/kg aBW/day at the 6-month follow-up. Protein intake in the control group (n = 43) remained at 0.9 g/kg a BW/day. The intervention did not affect self-reported oral health. While it caused moderate shifts in oral microbiota alpha- and beta-diversity measures, abundances of individual bacterial taxa were not affected. In conclusion, our intervention did not affect self-reported oral health within a period of 6 months, nor did it substantially affect the tongue microbiota composition.
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Probiotic Mixture Containing Lactobacillus helveticus, Bifidobacterium longum and Lactiplantibacillus plantarum Affects Brain Responses to an Arithmetic Stress Task in Healthy Subjects: A Randomised Clinical Trial and Proof-of-Concept Study.
Edebol Carlman, HMT, Rode, J, König, J, Repsilber, D, Hutchinson, AN, Thunberg, P, Persson, J, Kiselev, A, Pruessner, JC, Brummer, RJ
Nutrients. 2022;14(7)
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Physiological and psychological stress can affect gut function and its interaction with the brain (gut-brain axis). Different types of stress and different phases of stress regulation can affect the brain in different ways. Manipulation of the gut microbiota using probiotic bacteria has been shown to improve cognition and stress response. However, probiotic interventions are likely to have different effects depending on the strains used. The aim of this study was to assess the effects of a probiotic intervention on brain activity and stress response. This study is a randomised double-blinded placebo-controlled crossover study with 22 healthy subjects. Subjects were randomised to two study groups receiving the intervention in different orders (probiotics or placebo first). Results demonstrate that the probiotic intervention: - altered activity in specific brain regions known to regulate emotion and stress response. - significantly altered functional connectivity between the upper limbic and medioventral regions. - did not affect the activation of other limbic or subcortical areas. Authors conclude that their findings could further lead to possible clinical implications for improving stress resilience and potential roles in the treatment of affective and gut-brain axis disorders.
Abstract
Probiotics are suggested to impact physiological and psychological stress responses by acting on the gut-brain axis. We investigated if a probiotic product containing Bifidobacterium longum R0175, Lactobacillus helveticus R0052 and Lactiplantibacillus plantarum R1012 affected stress processing in a double-blinded, randomised, placebo-controlled, crossover proof-of-concept study (NCT03615651). Twenty-two healthy subjects (24.2 ± 3.4 years, 6 men/16 women) underwent a probiotic and placebo intervention for 4 weeks each, separated by a 4-week washout period. Subjects were examined by functional magnetic resonance imaging while performing the Montreal Imaging Stress Task (MIST) as well as an autonomic nervous system function assessment during the Stroop task. Reduced activation in regions of the lateral orbital and ventral cingulate gyri was observed after probiotic intervention compared to placebo. Significantly increased functional connectivity was found between the upper limbic region and medioventral area. Interestingly, probiotic intervention seemed to predominantly affect the initial stress response. Salivary cortisol secretion during the task was not altered. Probiotic intervention did not affect cognitive performance and autonomic nervous system function during Stroop. The probiotic intervention was able to subtly alter brain activity and functional connectivity in regions known to regulate emotion and stress responses. These findings support the potential of probiotics as a non-pharmaceutical treatment modality for stress-related disorders.
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Naturalization of the microbiota developmental trajectory of Cesarean-born neonates after vaginal seeding.
Song, SJ, Wang, J, Martino, C, Jiang, L, Thompson, WK, Shenhav, L, McDonald, D, Marotz, C, Harris, PR, Hernandez, CD, et al
Med (New York, N.Y.). 2021;2(8):951-964.e5
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Studies on model organisms show that foetal development can be modulated by microbial products from the pregnant mother’s microbiota, and early colonisation is critical for immune system development. However, natural transmission and colonisation of maternal microbes is impaired by caesarean section (CS) delivery. The aim of this study was to determine the effect of restoring exposure to maternal vaginal fluids after CS birth. This study is a large observational study of 177 infants born to 174 mothers. Physicians assessed healthy mothers who were set to deliver vaginally or by scheduled CS. Results demonstrate that microbial differences associated with delivery mode can be reduced by exposure to a vaginal microbial source at birth. In fact, birth mode significantly differentiated infant gut and skin microbiome development, and that seeding worked to adjust the trajectory of CS-delivered infants through partial restoration of microbiome features associated with a vaginal delivery. Authors conclude that restoring natural exposures at birth may be one way to reduce the risk of CS-associated diseases such as obesity, asthma, allergies, and immune disfunctions. However, randomised clinical trials on large cohorts are needed to gain conclusive evidence for microbial restoration at birth improving health outcomes.
Abstract
BACKGROUND Early microbiota perturbations are associated with disorders that involve immunological underpinnings. Cesarean section (CS)-born babies show altered microbiota development in relation to babies born vaginally. Here we present the first statistically powered longitudinal study to determine the effect of restoring exposure to maternal vaginal fluids after CS birth. METHODS Using 16S rRNA gene sequencing, we followed the microbial trajectories of multiple body sites in 177 babies over the first year of life; 98 were born vaginally, and 79 were born by CS, of whom 30 were swabbed with a maternal vaginal gauze right after birth. FINDINGS Compositional tensor factorization analysis confirmed that microbiota trajectories of exposed CS-born babies aligned more closely with that of vaginally born babies. Interestingly, the majority of amplicon sequence variants from maternal vaginal microbiomes on the day of birth were shared with other maternal sites, in contrast to non-pregnant women from the Human Microbiome Project (HMP) study. CONCLUSIONS The results of this observational study prompt urgent randomized clinical trials to test whether microbial restoration reduces the increased disease risk associated with CS birth and the underlying mechanisms. It also provides evidence of the pluripotential nature of maternal vaginal fluids to provide pioneer bacterial colonizers for the newborn body sites. This is the first study showing long-term naturalization of the microbiota of CS-born infants by restoring microbial exposure at birth. FUNDING C&D, Emch Fund, CIFAR, Chilean CONICYT and SOCHIPE, Norwegian Institute of Public Health, Emerald Foundation, NIH, National Institute of Justice, Janssen.
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Exploring Associations between Interindividual Differences in Taste Perception, Oral Microbiota Composition, and Reported Food Intake.
Cattaneo, C, Riso, P, Laureati, M, Gargari, G, Pagliarini, E
Nutrients. 2019;11(5)
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There are many known drivers of food choice and habits, however, taste is considered one of the main predictors. Each taste quality is associated with different nutritional or physiological requirements or indicates a potential dietary risk. The main aim of this study was to explore whether variation in gustatory functions among individuals could be related to different dietary patterns and intake. A secondary aim was to examine the relationship between gustatory functions and dietary patterns in relation to oral microbiota composition. The study recruited 59 (27 male and 32 female) healthy, normal-weight volunteers aged between 18 and 30 years of age. Seven concentrations for each taste stimulus were prepared to determine the recognition thresholds. Results indicate that: (i) recognition thresholds for the basic tastes were associated with each other, even though in different ways, (ii) interindividual differences in taste perception may influence habitual food consumption and intake, and (iii) there are gender-related differences in food consumption frequency and intake. Authors conclude that nongenetic factors, such as the oral bacteria lining the tongue, should be adequately considered in order to gain new insights into taste-related eating habits that may influence long-term health outcomes.
Abstract
The role of taste perception, its relationship with oral microbiota composition, and their putative link with eating habits and food intake were the focus of the present study. A sample of 59 reportedly healthy adults (27 male, 32 female; age: 23.3 ± 2.6 years) were recruited for the study and taste thresholds for basic tastes, food intake, and oral microbiota composition were evaluated. Differences in taste perception were associated with different habitual food consumption (i.e., frequency) and actual intake. Subjects who were orally hyposensitive to salty taste reported consuming more bakery and salty baked products, saturated-fat-rich products, and soft drinks than hypersensitive subjects. Subjects hyposensitive to sweet taste reported consuming more frequently sweets and desserts than the hypersensitive group. Moreover, subjects hypersensitive to bitter taste showed higher total energy and carbohydrate intakes compared to those who perceived the solution as less bitter. Some bacterial taxa on tongue dorsum were associated with gustatory functions and with vegetable-rich (e.g., Prevotella) or protein/fat-rich diets (e.g., Clostridia). Future studies will be pivotal to confirm the hypothesis and the potential exploitation of oral microbiome as biomarker of long-term consumption of healthy or unhealthy diets.