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Evaluation of Lactocare® Synbiotic Administration on the Serum Electrolytes and Trace Elements Levels in Psoriasis Patients: a Randomized, Double-Blind, Placebo-Controlled Clinical Trial Study.
Akbarzadeh, A, Taheri, M, Ebrahimi, B, Alirezaei, P, Doosti-Irani, A, Soleimani, M, Nouri, F
Biological trace element research. 2022;200(10):4230-4237
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Psoriasis is an immune-mediated chronic inflammatory skin disorder characterised by plaques and lesions on the skin. While the etiopathogenesis of psoriasis is not completely understood, various mechanisms have been implicated, including changes in the composition of intestinal microbes, oxidative stress and changes in the levels of certain trace elements. Previous research has shown that fluctuations in trace minerals such as zinc and copper may contribute to the progression and progression of psoriasis. It is known that synbiotics, which are combinations of probiotics and prebiotics, have immune-modulating properties, and they may also enhance the absorption of trace minerals from food when consumed. This double-blind, randomised, placebo-controlled trial was conducted to randomly assign sixty-four patients with mild-to-moderate psoriasis to consume Lactocare, a symbiotic containing seven strains of probiotic bacteria and prebiotic fructooligosaccharide twice daily or a placebo for 12 weeks. Serum trace mineral levels were measured after 12 weeks of treatment, including Fe, K, Ca, Mg, P, Zn, Na, and Cu. A significant improvement in serum levels of zinc and calcium was observed in the symbiotic group after 12 weeks of treatment. Additionally, the symbiotic treatment significantly increased the levels of trace minerals such as Fe, Ca, Mg, P, Zn, and Na within the group compared to the baseline. Fe and Cu levels in the treatment group were affected by sex, with male participants showing significant differences. To evaluate the other benefits of symbiotic preparations in patients with psoriasis, further large-scale studies are required. Healthcare professionals can utilise the research to understand the immune-modulating and anti-inflammatory properties of symbiotic formulations such as Lactocare, as well as to understand how the consumption of Lactocare improves the absorption of trace minerals.
Abstract
BACKGROUND Despite the exact etiopathogenesis of psoriasis remains unknown, the increasing or decreasing of some trace elements and oxidative stress status are considered to play a role. In this study, the effect of Lactocare® synbiotic on the serum levels of trace elements including Zn, Cu, Mg, Na, Fe, P, Ca, and K in the patients with mild to moderate psoriasis was investigated. METHODS Sixty-four patients with mild to moderate psoriasis were included. Patients were randomly divided into treatment (n═32) and control (n═32) groups. The treatment group received Lactocare® and the control group received a placebo (two times daily for 12 weeks). Eight patients from the intervention group and 18 patients from the control group discontinued the study because of the recent COVID-19 condition. For routine trace element analysis, the blood samples were collected from all patients at the baseline as well as week 12 post-treatment. The serum was then isolated and the serum levels of trace elements including Fe, K, Ca, Mg, P, Zn, Na, and Cu were measured using an automatic electrolyte analyzer. For confirmation of the effect of Lactocare® on the alteration of serum levels of trace elements, intra-group analysis was performed at two interval times: baseline and week 12 post-treatment. RESULTS The serum levels of K, P, and Ca in the placebo group were significantly higher than that of the treatment group at baseline. Serum levels of Zn and Ca were significantly higher in the treatment group compared to the placebo group at week 12 post-treatment. Moreover, a significantly lower serum level of K, P, and Ca in the treatment group at the baseline compared to the placebo group was compensated on week 12 post-treatment. Intra-group analysis in the treatment group showed that the serum levels of Fe, Ca, Mg, P, Zn, and Na was significantly increased at week 12 post-treatment compared to baseline levels. Whereas, intra-group analysis in the control group showed only Ca has a significant difference between baseline and week 12 post-treatment. CONCLUSION The serum levels of Fe, Zn, P, Mg, Ca, and Na are increased significantly 12 weeks after oral administration of Lactocare® in psoriatic patients. The serum level of Fe and Cu is affected by sex at pre- and post-treatment. This study supports the concept that Lactocare® exerts beneficial effects in the gastrointestinal tract to improve mineral absorption in psoriatic patients.
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Effect of Probiotic Bifidobacterium breve in Improving Cognitive Function and Preventing Brain Atrophy in Older Patients with Suspected Mild Cognitive Impairment: Results of a 24-Week Randomized, Double-Blind, Placebo-Controlled Trial.
Asaoka, D, Xiao, J, Takeda, T, Yanagisawa, N, Yamazaki, T, Matsubara, Y, Sugiyama, H, Endo, N, Higa, M, Kasanuki, K, et al
Journal of Alzheimer's disease : JAD. 2022;88(1):75-95
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Probiotics are “live microorganisms which when administered in adequate amounts, confer a health benefit on the host” as defined by the International Scientific Association for Probiotics and Prebiotics. The aim of this study was to assess the effect of the probiotic strain Bifidobacterium breve MCC1274 in enhancing cognition and preventing brain atrophy of older patients with mild cognitive impairment (MCI). This study is a double-blind, randomised placebo-controlled trial. Participants (n=130) were randomly assigned to one of the two groups: probiotic group or placebo group. Results show improvement of cognitive function on some subscales scores but not the total scores by the consumption of B. breve MCC1274 in the MCI subjects. In addition, the probiotic supplementation for 24 weeks suppressed brain atrophy progression based on brain MRI. Authors conclude that B. breve MCC1274 is a practical approach for preventing cognitive impairment of MCI subjects. However, further research is necessary to understand B. breve MCC1274 mechanism(s) of action.
Abstract
BACKGROUND Probiotics have been reported to ameliorate cognitive impairment. OBJECTIVE We investigated the effect of the probiotic strain Bifidobacterium breve MCC1274 (A1) in enhancing cognition and preventing brain atrophy of older patients with mild cognitive impairment (MCI). METHODS In this RCT, 130 patients aged from 65 to 88 years old with suspected MCI received once daily either probiotic (B. breve MCC1274, 2×1010 CFU) or placebo for 24 weeks. Cognitive functions were assessed by ADAS-Jcog and MMSE tests. Participants underwent MRI to determine brain atrophy changes using Voxel-based Specific Regional Analysis System for Alzheimer's disease (VSRAD). Fecal samples were collected for the analysis of gut microbiota composition. RESULTS Analysis was performed on 115 participants as the full analysis set (probiotic 55, placebo 60). ADAS-Jcog subscale "orientation" was significantly improved compared to placebo at 24 weeks. MMSE subscales "orientation in time" and "writing" were significantly improved compared to placebo in the lower baseline MMSE (< 25) subgroup at 24 weeks. VSRAD scores worsened in the placebo group; probiotic supplementation tended to suppress the progression, in particular among those subjects with progressed brain atrophy (VOI Z-score ≥1.0). There were no marked changes in the overall composition of the gut microbiota by the probiotic supplementation. CONCLUSION Improvement of cognitive function was observed on some subscales scores only likely due to the lower sensitiveness of these tests for MCI subjects. Probiotics consumption for 24 weeks suppressed brain atrophy progression, suggesting that B. breve MCC1274 helps prevent cognitive impairment of MCI subjects.
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Efficacy of Bifidobacterium breve Fermented Milk in Maintaining Remission of Ulcerative Colitis.
Matsuoka, K, Uemura, Y, Kanai, T, Kunisaki, R, Suzuki, Y, Yokoyama, K, Yoshimura, N, Hibi, T
Digestive diseases and sciences. 2018;63(7):1910-1919
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Fermented milk products may improve symptoms in patients with ulcerative colitis (UC). The aim of this B-FLORA study was to assess the ability of a fermented milk product (‘Mil-Mil’) containing Bifidobacterium breve strain Yakult (BFM) to maintain remission in Japanese patients with UC. The study enrolled 195 patients with UC in remission, who were randomised to receive one pack of fermented milk (containing 10 billion BFM and 1 billion Lactobacillus acidophilus) per day, or a placebo, for 48 weeks. Time to relapse was not significantly different between the BFM and placebo groups, neither was the incidence of relapse. Stool samples from a subgroup of patients revealed no changes in the intestinal microbiota in either group, but there was a significant decrease in Bifidobacterium species before relapse, regardless of treatment group. The authors concluded that BFM had no effect on time to relapse in UC patients compared with placebo. Future studies should compare the effects of different probiotics, doses and delivery modes, and consider specific patient populations and disease severity.
Abstract
BACKGROUND Fermented milk products containing Bifidobacterium breve strain Yakult (BFM) may improve clinical status in ulcerative colitis (UC) patients. AIMS To assess efficacy of BFM in maintaining remission in Japanese patients with quiescent UC. METHODS This double-blind study (B-FLORA) enrolled 195 patients with quiescent UC, randomized to receive one pack of BFM fermented milk per day [Bifidobacterium breve strain Yakult (10 billion bacteria) and Lactobacillus acidophilus (1 billion bacteria)] (n = 98) or matching placebo (n = 97) for 48 weeks. The primary efficacy endpoint was relapse-free survival (relapse: rectal bleeding score ≥ 2 on Sutherland disease activity index scale for 3 consecutive days and/or initiation of remission induction therapy for worsening of UC). RESULTS An interim analysis was conducted after inclusion and follow-up of one-third of patients for the first phase of the study (n = 195). Relapse-free survival was not significantly different between the BFM and placebo groups (P = 0.643; hazard ratio 1.16; 95% CI 0.63-2.14, log-rank test), nor was the incidence of relapse. Therefore, the study was discontinued for lack of efficacy. An exploratory analysis of fecal samples from a subgroup of patients revealed no effects of either study beverage on intestinal microbiota, but there was a significant decrease in Bifidobacterium species before relapse, regardless of treatment group. Three mild adverse events occurred for which a causal relationship with the study beverage could not be ruled out (placebo: abdominal bloating and stress in one patient; BFM: body odor in one patient). CONCLUSIONS BFM had no effect on time to relapse in UC patients compared with placebo. STUDY REGISTRATION UMIN000007593.
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Fecal Microbiome and Food Allergy in Pediatric Atopic Dermatitis: A Cross-Sectional Pilot Study.
Fieten, KB, Totté, JEE, Levin, E, Reyman, M, Meijer, Y, Knulst, A, Schuren, F, Pasmans, SGMA
International archives of allergy and immunology. 2018;175(1-2):77-84
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Atopic diseases, such as atopic dermatitis (AD), asthma and rhinitis, are on the increase worldwide. Exposure to microbes may be important in the development of an atopic disease. Specifically, reduced early-life exposure is thought to be a contributing factor because microbial colonisation of the intestines during infancy plays a crucial role in the maturation of the immune system. AD, also called eczema, is an inflammatory skin disease often seen in small children. Food allergies are common in children with AD, the most common allergens being eggs, cow’s milk, peanuts, soy and wheat. This cross-sectional observational pilot study with 82 young children with a diagnosis of AD set out to identify distinct microbial patterns in the children’s faecal microbiomes associated with a clinical diagnosis of food allergy. Stool and blood samples were collected for a microbiome analysis and IgE antibody measurement, respectively. 20 children had a confirmed food allergy (most commonly to cow’s milk and peanuts), while almost half of the children without a diagnosed food allergy were sensitised to common food allergens after a food challenge. The study identified a faecal microbial signature in children with AD that differentiates between the presence and absence of food allergy. Children with AD and food allergy had more Escherichia coli and Bifidobacterium pseudocatenulatum species and less Bifidobacterium breve, Faecalibacterium prausnitzii and Akkermansia muciniphila species than children without food allergy. The authors concluded that the study supports a hypothesis that the intestinal microbiome differs in children with AD, depending on whether they have a food allergy or not. They call for future studies to confirm these findings.
Abstract
BACKGROUND Exposure to microbes may be important in the development of atopic disease. Atopic diseases have been associated with specific characteristics of the intestinal microbiome. The link between intestinal microbiota and food allergy has rarely been studied, and the gold standard for diagnosing food allergy (double-blind placebo-controlled food challenge [DBPCFC]) has seldom been used. We aimed to distinguish fecal microbial signatures for food allergy in children with atopic dermatitis (AD). METHODS Pediatric patients with AD, with and without food allergy, were included in this cross-sectional observational pilot study. AD was diagnosed according to the UK Working Party criteria. Food allergy was defined as a positive DBPCFC or a convincing clinical history, in combination with sensitization to the relevant food allergen. Fecal samples were analyzed using 16S rRNA microbial analysis. Microbial signature species, discriminating between the presence and absence food allergy, were selected by elastic net regression. RESULTS Eighty-two children with AD (39 girls) with a median age of 2.5 years, and 20 of whom were diagnosed with food allergy, provided fecal samples. Food allergy to peanut and cow's milk was the most common. Six bacterial species from the fecal microbiome were identified, that, when combined, distinguished between children with and without food allergy: Bifidobacterium breve, Bifidobacterium pseudocatenulatum, Bifidobacterium adolescentis, Escherichia coli, Faecalibacterium prausnitzii, and Akkermansia muciniphila (AUC 0.83, sensitivity 0.77, specificity 0.80). CONCLUSIONS In this pilot study, we identified a microbial signature in children with AD that discriminates between the absence and presence of food allergy. Future studies are needed to confirm our findings.