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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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Plain language summary
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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Emollient use alters skin barrier and microbes in infants at risk for developing atopic dermatitis.
Glatz, M, Jo, JH, Kennedy, EA, Polley, EC, Segre, JA, Simpson, EL, Kong, HH
PloS one. 2018;13(2):e0192443
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Plain language summary
Atopic dermatitis (AD) is a type of eczema common in babies and young children. Poor function of the skin barrier is thought to lead to changes in the composition of bacteria found on the skin. This small study investigated the effects of daily use of an emollient, Cetaphil Moisturising Cream, on the barrier function and bacterial communities on the skin of infants at risk of developing AD. After 6 months, the emollient group had a lower skin pH than the control group. The group using the emollient had more diverse skin bacterial communities than the control group. The proportion of Streptococcus salivarius was higher in the emollient versus control groups. The authors concluded that lower skin pH and increased skin bacterial diversity after long-term emollient use may reduce inflammation and lower the risk of infants developing AD.
Abstract
BACKGROUND Emollients are a mainstay of treatment in atopic dermatitis (AD), a disease distinguished by skin bacterial dysbiosis. However, changes in skin microbiota when emollients are used as a potential AD preventative measure in infants remain incompletely characterized. RESULTS We compared skin barrier parameters, AD development, and bacterial 16S ribosomal RNA gene sequences of cheek, dorsal and volar forearm samples from 6-month-old infants with a family history of atopy randomized to receive emollients (n = 11) or no emollients (controls, n = 12). The emollient group had a lower skin pH than the control group. The number of bacterial taxa in the emollient group was higher than in the control group at all sites. The Streptococcus salivarius proportion was higher in the emollient versus control groups at all sites. S. salivarius proportion appeared higher in infants without AD compared to infants with AD. A decrease in S. salivarius abundance was further identified in a separate larger population of older children demonstrating an inverse correlation between AD severity at sampling sites and S. salivarius proportions. CONCLUSIONS The decreased skin pH and the increased proportion of S. salivarius after long-term emollient use in infants at risk for developing AD may contribute to the preventative effects of emollients in high-risk infants.