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Functional response to a microbial synbiotic in the gastrointestinal system of children: a randomized clinical trial.
Tierney, BT, Versalovic, J, Fasano, A, Petrosino, JF, Chumpitazi, BP, Mayer, EA, Boetes, J, Smits, G, Parkar, SG, Voreades, N, et al
Pediatric research. 2023;93(7):2005-2013
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The composition of the human gut microbiome has been identified as playing a role in regulating bowel movements in children. This includes functional constipation, which is characterised by infrequent bowel movements and associated phenotypes such as stool consistency, pain when defecating and bloating. The aim of this study was to determine the impact of a nine-strain (eight species) synbiotic (a prebiotic and defined microbial consortium) formulation (with the prebiotic comprising mixed-chain length oligosaccharides) on ameliorating constipation. This study was a multicentre, randomised, double-blind, and placebo-controlled with two parallel arms. Ninety-one healthy male/female subjects were recruited and randomly assigned to one of the two arms; treatment or placebo group. Results showed that: - compared to placebo, synbiotic use increased weekly bowel movements (WBMs) in constipated children. - there was an increased abundance of the administered probiotic species (bifidobacteria) in the treatment arm. - baseline microbial richness demonstrated potential as a predictive biomarker for response to intervention. Authors conclude that a synbiotic formulation may increase weekly WBMs in children who have low-frequency WBMs.
Abstract
BACKGROUND Oral microbial therapy has been studied as an intervention for a range of gastrointestinal disorders. Though research suggests that microbial exposure may affect the gastrointestinal system, motility, and host immunity in a pediatric population, data have been inconsistent, with most prior studies being in neither a randomized nor placebo-controlled setting. The aim of this randomized, placebo-controlled study was to evaluate the efficacy of a synbiotic on increasing weekly bowel movements (WBMs) in constipated children. METHODS Sixty-four children (3-17 years of age) were randomized to receive a synbiotic (n = 33) comprising mixed-chain length oligosaccharides and nine microbial strains, or placebo (n = 31) for 84 days. Stool microbiota was analyzed on samples collected at baseline and completion. The primary outcome was a change from baseline of WBMs in the treatment group compared to placebo. RESULTS Treatment increased (p < 0.05) the number of WBMs in children with low baseline WBMs, despite broadly distinctive baseline microbiome signatures. Sequencing revealed that low baseline microbial richness in the treatment group significantly anticipated improvements in constipation (p = 0.00074). CONCLUSIONS These findings suggest the potential for (i) multi-species-synbiotic interventions to improve digestive health in a pediatric population and (ii) bioinformatics-based methods to predict response to microbial interventions in children. IMPACT Synbiotic microbial treatment improved the number of spontaneous weekly bowel movements in children compared to placebo. Intervention induced an increased abundance of bifidobacteria in children, compared to placebo. All administered probiotic species were enriched in the gut microbiome of the intervention group compared to placebo. Baseline microbial richness demonstrated potential as a predictive biomarker for response to intervention.
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The role of gut microbiome in inflammatory skin disorders: A systematic review.
Widhiati, S, Purnomosari, D, Wibawa, T, Soebono, H
Dermatology reports. 2022;14(1):9188
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Gut-skin axis refers to the complex cross-talk between gut bacteria and skin. Although the exact mechanism underlying chronic inflammatory skin conditions is unknown, imbalances in the composition of gut microbes are believed to play a role. Twenty-three studies were included in this systematic review to assess whether gut microbial imbalance may contribute to inflammatory skin conditions such as Psoriasis, Acne Vulgaris, Atopic Dermatitis, and Urticaria. According to this systematic review, immune stimulation, inflammation, and disruption of bacterial composition are common mechanisms in all these skin disorders. A western diet and environmental exposures are found to be contributing to the disruption of bacteria and the pathology of these skin disorders. It has been observed that friendly gut bacteria such as Bifidobacterium are reduced in people with inflammatory skin conditions, whereas elevated levels of pathogenic bacteria such as E. coli and Proteobacteria are present in the gut of patients with inflammatory skin conditions. The abundance of anti-inflammatory bacteria such as Akkermansia muciniphila, Faecalibacterium prausnitzii, Clostridium leptum, Lactobacillus, and Bifidobacterium may protect against inflammatory skin conditions. Further robust studies are required to evaluate the pathogenesis behind inflammatory skin conditions as well as the involvement of gut bacteria in the development and progression of the disease. Healthcare professionals can gain a deeper understanding of gut bacteria that contribute to the pathology of inflammatory diseases as well as how clinically using anti-inflammatory bacterial species may improve the condition of individuals suffering from inflammatory skin conditions.
Abstract
The close relationship between the intestine and the skin has been widely stated, seen from gastrointestinal (GI) disorders often accompanied by skin manifestations. Exactly how the gut microbiome is related to skin inflammation and influences the pathophysiology mechanism of skin disorders are still unclear. Many studies have shown a two-way relationship between gut and skin associated with GI health and skin homeostasis and allostasis. This systematic review aimed to explore the associations between the gut microbiome with inflammatory skin disorders, such as acne, psoriasis, atopic dermatitis, and urticaria, and to discover the advanced concept of this relationship. The literature search was limited to any articles published up to December 2020 using PubMed and EBSCOHost. The review followed the PRISMA guidelines for conducting a systematic review. Of the 319 articles screened based on title and abstract, 111 articles underwent full-text screening. Of these, 23 articles met our inclusion criteria, comprising 13 atopic dermatitis (AD), three psoriasis, four acne vulgaris, and four chronic urticaria articles. Acne vulgaris, atopic dermatitis, psoriasis, and chronic urticaria are inflammation skin disorders that were studied recently to ascertain the relationship of these disorders with dysbiosis of the GI microbiome. All acne vulgaris, psoriasis, and chronic urticaria studies stated the association of gut microbiome with skin manifestations. However, the results in atopic dermatitis are still conflicting. Most of the articles agree that Bifidobacterium plays an essential role as anti-inflammation bacteria, and Proteobacteria and Enterobacteria impact inflammation in inflammatory skin disorders.
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Dynamics of gut microbiota during pregnancy in women with TPOAb-positive subclinical hypothyroidism: a prospective cohort study.
Wu, M, Chi, C, Yang, Y, Guo, S, Li, T, Gu, M, Zhang, T, Gao, H, Liu, R, Yin, C
BMC pregnancy and childbirth. 2022;22(1):592
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Subclinical hypothyroidism (SCH) in pregnancy refers to the elevation of thyroid stimulating hormone level with normal free T4 level. One third of women with SCH have been reported to test positive for anti-thyroid peroxidase antibody (TPOAb+). The aim of this study was to evaluate whether gut microbiota can be potential therapeutic targets for managing TPOAb+ SCH. This study was a nested, prospective observational cohort study. A total of 64 and 68 pregnant women with TPOAb+ and TPOAb negative SCH, respectively, were included in this study. Results showed that women who were diagnosed with TPOAb+ SCH in trimester (T)1 show distinct dynamics of gut microbiota from T2 to T3. Furthermore, changes in the abundances of three types of bacterial species were abnormal in the presence of levothyroxine treatment. Authors conclude that gut microbiota can serve as potential therapeutic targets for TPOAb+ SCH during pregnancy.
Abstract
BACKGROUND Anti-thyroid peroxidase antibody (TPOAb) positivity can contribute to inhibit thyroxine synthesis. Gut microbiota can interact with metabolic or immune diseases. However, dynamics of gut microbiota from the second (T2) to the third trimester (T3) in women with TPOAb-positive/negative subclinical hypothyroidism (TPOAb+/TPOAb- SCH) have not been reported. Therefore, we aimed to evaluate whether gut microbiota can be potential therapeutic targets for managing TPOAb+ SCH. METHODS In this single-center prospective cohort study, we observed gut microbiota dynamics by sequencing 16S rRNA from fecal samples collected in T2 (20-23+ 6 weeks) and T3 (28-33+ 6 weeks). TPOAb+/TPOAb- SCH were stratified depending on whether or not they used levothyroxine (LT4) during the pregnancy (LT4+/LT4-). Microbiome bioinformatics analyses were performed using QIIME2. The linear discriminant analysis effect size (LEfSe) was used for the quantitative analysis of biomarkers. Functional profiling was performed with PICRUSt2. RESULTS Distinct gut microbiota dynamics from T2 to T3 were noted in the TPOAb- (n = 68) and TPOAb+ (n = 64) SCH groups. The TPOAb+ LT4- group was characterized by enriched bacterial amplicon sequence variants (ASVs) of Prevotella in T2 and Bacteria, Lachnospirales, Lachnospiraceae, Blautia, and Agathobacter in T3 and by depleted ASVs of Gammaproteobacteria, Enterobacterales, and Enterobacteriaceae in T2 and Actinobacteriota, Coriobacteriia, Actinobacteria, Coriobacteriales, Bifidobacteriales, Bifidobacteriaceae, Bifidobacterium, Dorea formicigenerans, and Bifidobacterium longum in T3. The TPOAb+ LT4+ group was characterized by enriched bacterial ASVs of Blautia, Streptococcus salivarius, and Bifidobacterium longum in T3 and by depleted ASVs of Bacteroidota, Bacteroidia, Bacteroidales, and Prevotella in T2 and Agathobacter in T3. Moreover, we identified 53 kinds of metabolic functions that were mainly involved in sugar, lipid, and amino acid metabolism. CONCLUSIONS Our results indicated that low dynamics of gut microbiota composition and high dynamics of its metabolic function from T2 to T3 were associated with TPOAb+ SCH. We concluded that gut microbiota could be new targets for treatment of TPOAb+ SCH during pregnancy. TRIAL REGISTRATION This study was retrospectively registered at the Chinese Clinical Trial Registry (registration number ChiCTR2100047175 ) on June 10, 2021.
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Potential role of microbiome in Chronic Fatigue Syndrome/Myalgic Encephalomyelits (CFS/ME).
Lupo, GFD, Rocchetti, G, Lucini, L, Lorusso, L, Manara, E, Bertelli, M, Puglisi, E, Capelli, E
Scientific reports. 2021;11(1):7043
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Chronic Fatigue Syndrome/Myalgic Encephalomyelits (CFS/ME) is a severe multisystemic disease. The main symptom is persistent unexplained fatigue, it has inflammatory symptoms, is characterized by an abnormal immune response and dysfunction of energy metabolism. Recent studies suggest strong correlations between dysbiosis and other conditions such as intestinal disorders, autoimmune conditions, cancer and several neurological disorders. In the case of CFS/ME, some studies have shown an altered composition of the gut and oral microbiomes. In this study the oral and intestinal bacterial composition of CFS/ME patients were analysed and compared to a group of relatives and to a control population outside the families. This was to identify a possible effect of lifestyle habits and a microbial profile of CFS/ME syndrome. The study showed significant variations in both the intestinal and oral bacteria composition between CFS/ME patients, their relatives and external controls. There is a lot of interesting detail about the levels of specific bacteria in each group. Further studies are needed to better understand if the microbial composition changes are cause or consequence of the onset of CFS/ME and if they are related to any of the several secondary symptoms.
Abstract
Chronic Fatigue Syndrome/Myalgic Encephalomyelitis (CFS/ME) is a severe multisystemic disease characterized by immunological abnormalities and dysfunction of energy metabolism. Recent evidences suggest strong correlations between dysbiosis and pathological condition. The present research explored the composition of the intestinal and oral microbiota in CFS/ME patients as compared to healthy controls. The fecal metabolomic profile of a subgroup of CFS/ME patients was also compared with the one of healthy controls. The fecal and salivary bacterial composition in CFS/ME patients was investigated by Illumina sequencing of 16S rRNA gene amplicons. The metabolomic analysis was performed by an UHPLC-MS. The fecal microbiota of CFS/ME patients showed a reduction of Lachnospiraceae, particularly Anaerostipes, and an increased abundance of genera Bacteroides and Phascolarctobacterium compared to the non-CFS/ME groups. The oral microbiota of CFS/ME patients showed an increase of Rothia dentocariosa. The fecal metabolomic profile of CFS/ME patients revealed high levels of glutamic acid and argininosuccinic acid, together with a decrease of alpha-tocopherol. Our results reveal microbial signatures of dysbiosis in the intestinal microbiota of CFS/ME patients. Further studies are needed to better understand if the microbial composition changes are cause or consequence of the onset of CFS/ME and if they are related to any of the several secondary symptoms.
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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.