4 research outputs found
Increased intestinal permeability, measured by serum zonulin, is associated with metabolic risk markers in overweight pregnant women
Background. Increased intestinal permeability with subsequent metabolic endotoxemia, i.e., elevated circulating levels of bacterial lipopolysaccharide, LPS, has been introduced as a novel initiator of obesity related metabolic disturbances in non-pregnant individuals. The objective was to investigate the extent to which intestinal permeability, measured by serum zonulin concentration, is related to metabolic endotoxemia and metabolic risk markers in overweight pregnant women. Methods. This was a cross-sectional study including 100 pregnant overweight women in early pregnancy. Serum zonulin was analyzed using ELISA, and markers for metabolic endotoxemia (LPS), inflammation (high-sensitive C-reactive protein and glycoprotein acetylation GIyA), glucose metabolism (fasting glucose and insulin), and lipid metabolism were measured. Results. Higher serum zonulin concentration associated positively with LPS (P = 0.02), inflammatory markers (P <0.001), insulin (P <0.001), insulin resistance (P <0.001), and triglycerides (P = 0.001), and negatively with insulin sensitivity (P = 0.001) (ANOVA with Tukey's corrections or Kruskal-Wallis nonparametric test with Bonferroni correction for zonulin quartiles). All the observed associations were confirmed (P <0.015) in a linear regression model adjusted with potential confounding factors. Both LPS and GlycA showed positive relationship with insulin resistance, serum insulin, triglycerides, total and LDL-cholesterol and negative relationship with insulin sensitivity (P Conclusions. Our findings suggest that increased serum zonulin concentration, i.e., increased intestinal permeability, contributes to metabolic endotoxemia, systemic inflammation, and insulin resistance in overweight pregnant women. By reinforcingintestinal barrier, it may be possible to manipulate maternal metabolism during pregnancy with subsequent health benefits. (C) 2017 Elsevier Inc. All rights reserved.Peer reviewe
Synbiotic Lactobacillus acidophilus NCFM and cellobiose does not affect human gut bacterial diversity but increases abundance of lactobacilli, bifidobacteria and branched-chain fatty acids: a randomized, double-blinded cross-over trial
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Impact of polydextrose on the faecal microbiota: a double-blind, crossover, placebo-controlled feeding study in healthy human subjects
In this placebo-controlled, double-blind, crossover human feeding study, the effects of polydextrose (PDX; 8 g/d) on the colonic microbial
composition, immune parameters, bowel habits and quality of life were investigated. PDX is a complex glucose oligomer used as a sugar
replacer. The main goal of the present study was to identify the microbial groups affected by PDX fermentation in the colon. PDX was
shown to significantly increase the known butyrate producer Ruminococcus intestinalis and bacteria of the Clostridium clusters I, II
and IV. Of the other microbial groups investigated, decreases in the faecal LactobacillusâEnterococcus group were demonstrated. Denaturing
gel gradient electrophoresis analysis showed that bacterial profiles between PDX and placebo treatments were significantly different.
PDX was shown to be slowly degraded in the colon, and the fermentation significantly reduced the genotoxicity of the faecal water. PDX
also affected bowel habits of the subjects, as less abdominal discomfort was recorded and there was a trend for less hard and more formed
stools during PDX consumption. Furthermore, reduced snacking was observed upon PDX consumption. This study demonstrated the
impact of PDX on th