Objective: Manipulating the intestinal microbiota for the benefit of the mental health is a concept that has become widely acknowledged. Prebiotics, the nondigestible nutrients, can proliferate intrinsic beneficial gut bacteria, and so provide an alternative strategy for effectively altering the enteric ecosystem, and then brain function. This review summarizes findings from studies using prebiotics to improve mental health and psychological disorders. Methods: Pub Med, Google Scholar, Scopus, and Science Direct databases were searched by using "prebiotics", "psychological disorder", "mood disorder", "depression", "anxiety", "stress", "sleep", and "cognition" for the studies aiming the application of prebiotics and the beneficial effects of them in mental health and psychological disorders' control and/or treatment. Results: Prebiotic consumption improved psychological and biological measures of mental disorders such as depression, anxiety, and stress in individuals with mood disorder. Overall, the results showed that, through modulating the gut microbiota composition, prebiotics can beneficially affect mental health, modulate psychological disorders, and improve cognitive function and sleep/wake cycle disruptions. Discussion: Prebiotics can improve mental health, mood, and psychological function. Habitual diets rich in dietary prebiotics would be linked to reduced risk of developing symptoms of psychological disorders; however, additional studies are necessary.
Background: Probiotics are live beneficial microorganisms which may exert hypolipidemic effects through many mechanisms. Lipid profile disturbances are frequently reported in rheumatoid arthritis (RA) patients. The objective of this study was to evaluate the effects of Lactobacillus casei on serum lipids of RA women.
Methods: In the present parallel randomized double-blind placebo-controlled clinical trial, 60 RA patients were recruited and divided into 2 groups. They received either a daily capsule containing 108 CFU of L. casei 01, or identical capsules containing maltodextrin, for 8 weeks. Anthropometric parameters, dietary intake and physical activity were assessed at 2 ends of the study. Serum levels of total cholesterol (TC), high-density lipoprotein-cholesterol (HDL-C), low-density lipoprotein-cholesterol (LDL-C) and triglyceride (TG) were measured. Independent-samples t test and analysis of covariance (ANCOVA) test, and paired t test were used to test between- and within-group differences, respectively.
Results: There were no significant between- or within-group differences for demographic and anthropometric parameters, physical activity and dietary intakes, throughout the study. No statistically significant within-group changes were observed for serum lipids in either group; between-group differences were also insignificant by the end of study period (TC: -0.18 [-0.65, 0.29], P = 0.801, HDL-C: -1.66 [-19.28, 15.59], P = 0.663, LDL-C: -2.73 [-19.17, 13.73], P = 0.666, TG: 0.12 [-19.76, 20.00], P = 0.900).
Conclusion: Lactobacillus casei 01 could not improve serum lipids in RA
patients. Further studies using probiotic foods and different probiotic strains are suggested.
Diabetes mellitus, a multifactorial disorder, is related to the intestinal microbiota via numerous molecular mechanisms. The vast increase in the prevalence of diabetes and its associated complications requires a natural and safe solution. There is a growing evidence of gut microbiota effi ciency in improving insulin resistance, impaired insulin secretion, and metabolic complications in diabetic patients. Probiotics are defi ned as live microorganisms that, when ingested in adequate amounts, exert health benefi ts to the host. Probiotics can increase insulin sensitivity and reduce autoimmune responses by modulating intestinal microbiota and decreasing the infl ammatory reactions and oxidative stress. Recent evidences show that the intestinal microbiota infl uences the host through modulating intestinal permeability and mucosal immune response, manipulating eating behaviors by appetite-regulating hormones, including agouti related protein (AgRP), glucagon like peptide-1 (GLP-1) and neuropeptide Y, and controlling gut endocannabinoid (eCB) system which is now believed to be associated with infl ammation and diabetes. Moreover, intestinal microbiota control the host metabolism by affecting energy extraction from food and by biochemically converting molecules derived from the host or from gut microbes themselves. Experimental studies and clinical trials support the hypothesis that the modulation of the intestinal microbiota by probiotics, especially Lactobacillus and Bifidobacterium strains may be effective in prevention and management of diabetes. This review will highlight the current evidences in probiotic effectiveness and future prospects for exploring probiotic therapy in prevention and control of diabetes.
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