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A controlled trial of gluten-free diet in patients with irritable bowel syndrome-diarrhea: effects on bowel frequency and intestinal function.
Vazquez-Roque, MI, Camilleri, M, Smyrk, T, Murray, JA, Marietta, E, O'Neill, J, Carlson, P, Lamsam, J, Janzow, D, Eckert, D, et al
Gastroenterology. 2013;144(5):903-911.e3
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Plain language summary
The relationship between gluten exposure and diarrhoea-predominant irritable bowel syndrome (IBS-D) is not well understood. Non-celiac IBS-D patients who are positive for HLA-DQ2/8 genes associated with CD can show symptom improvement on a gluten-free diet (GFD). The aim of this 4-week parallel randomized controlled clinical trial in HLA-DQ2/8 positive and negative patients with IBS-D was to assess the effects of a gluten-containing diet (GCD) compared to a GFD on bowel function, gut transit, small bowel (SB) and colonic barrier functions as measured by two-sugar excretion permeability test and mRNA expression of TJ proteins in mucosa of the small bowel (SB) and rectosigmoid (RS) derived by biopsy. Immune response to diets was also measured as cytokine production from peripheral blood mononuclear cells (PBMCs). Patient were recruited from the Mayo clinic’s database of IBS suffers, and invited to participate. Patients with diagnosed CD were excluded. Genotype analysis was performed for HLA-DQ2 and HLA-DQ8. 22 patients were placed on the GCD (11 HLA-DQ2/8–negative and 11 HLA-DQ2/8–positive) and 23 on the GFD (12 HLA-DQ2/8−negative and 11 HLA-DQ2/8–positive. All meals and snacks were ingested or prepared in the Mayo Clinic. Patients were advised to eat only the foods provided by the study dieticians. Gluten-free and gluten-containing meals were prepared using the same macronutrient content (20% protein, 30% fat, 50% carb). Compliance to the diet was assessed by direct questioning by the dietitians and reported to be excellent. All patients were ingesting gluten in their diet prior to starting the study. At 4-weeks, a statistically significant decrease in stool frequency of subjects on GFD compared to subjects on GCD (p=0.04) was seen. This effect was more pronounced in subjects who were HLA-DQ2 or 8 positive (p=0.019) There was no significant diet effect (GFD vs. GCD) on, daily stool form, ease of passage or gastric emptying. The GCD was associated with higher small bowel (SB) permeability (based on 0–2 hr levels of mannitol (p=0.028) and lactulose:mannitol ratio (P=0.0012)). SB permeability was greater in HLA-DQ2/8–positive than −negative patients (P=.018). No significant differences in colonic permeability were observed. Significant diet-associated changes in occludin expression in SB mucosa in the HLA-DQ2 or 8 positive group were seen (p=0.017). Expressions of tight junction proteins (zonulin (ZO-1), occludin, and claudin-1 mRNA) in colonic mucosa were significantly lower in GCD relative to GFD in the overall groups, particularly in subjects with HLA-DQ2 or 8 positive status. Cytokine response was higher (interleukin-10) in response to GCD than GFD (unrelated to HLA genotype). A limitation in the quantification of TJ protein expression is that it was solely based on PCR (mRNA expression). In future, other methods should be included to directly identify these proteins and their distribution. The inability to document alterations in colonic permeability using the 2-sugar excretion profile from 8 to 24 hours is a limitation. This may be due to lack of sensitivity of the lactulose and mannitol excretion test, for example, due to the metabolism of both sugars by colonic bacteria. Another limitation is that the mechanism for improvement in stool frequency on a GFD in the absence of changes in colonic transit was not elucidated by our studies. This study does not specifically address the effects of gluten protein per se, and it is possible that other proteins in wheat flour may be responsible for the changes observed. The author concludes that this study provide mechanistic explanations for the observation that gluten withdrawal may improve patient symptoms in IBS. The data also partially explains that the biological effects of gluten were associated with HLA-DQ2 or 8 genotype. The relationship of dietary factors, innate and adaptive immune responses and mucosal interactions in IBS-D deserve further study. Further clinical studies evaluating the effects of gluten withdrawal in patients with IBS-D are needed.
Abstract
BACKGROUND & AIMS Patients with diarrhea-predominant irritable bowel syndrome (IBS-D) could benefit from a gluten-free diet (GFD). METHODS We performed a randomized controlled 4-week trial of a gluten-containing diet (GCD) or GFD in 45 patients with IBS-D; genotype analysis was performed for HLA-DQ2 and HLA-DQ8. Twenty-two patients were placed on the GCD (11 HLA-DQ2/8 negative and 11 HLA-DQ2/8 positive) and 23 patients were placed on the GFD (12 HLA-DQ2/8 negative and 11 HLA-DQ2/8 positive). We measured bowel function daily, small-bowel (SB) and colonic transit, mucosal permeability (by lactulose and mannitol excretion), and cytokine production by peripheral blood mononuclear cells after exposure to gluten and rice. We collected rectosigmoid biopsy specimens from 28 patients, analyzed levels of messenger RNAs encoding tight junction proteins, and performed H&E staining and immunohistochemical analyses. Analysis of covariance models was used to compare data from the GCD and GFD groups. RESULTS Subjects on the GCD had more bowel movements per day (P = .04); the GCD had a greater effect on bowel movements per day of HLA-DQ2/8-positive than HLA-DQ2/8-negative patients (P = .019). The GCD was associated with higher SB permeability (based on 0-2 h levels of mannitol and the lactulose:mannitol ratio); SB permeability was greater in HLA-DQ2/8-positive than HLA-DQ2/8-negative patients (P = .018). No significant differences in colonic permeability were observed. Patients on the GCD had a small decrease in expression of zonula occludens 1 in SB mucosa and significant decreases in expression of zonula occludens 1, claudin-1, and occludin in rectosigmoid mucosa; the effects of the GCD on expression were significantly greater in HLA-DQ2/8-positive patients. The GCD vs the GFD had no significant effects on transit or histology. Peripheral blood mononuclear cells produced higher levels of interleukin-10, granulocyte colony-stimulating factor, and transforming growth factor-α in response to gluten than rice (unrelated to HLA genotype). CONCLUSIONS Gluten alters bowel barrier functions in patients with IBS-D, particularly in HLA-DQ2/8-positive patients. These findings reveal a reversible mechanism for the disorder. Clinical trials.govNCT01094041.
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Chenodeoxycholate in females with irritable bowel syndrome-constipation: a pharmacodynamic and pharmacogenetic analysis.
Rao, AS, Wong, BS, Camilleri, M, Odunsi-Shiyanbade, ST, McKinzie, S, Ryks, M, Burton, D, Carlson, P, Lamsam, J, Singh, R, et al
Gastroenterology. 2010;(5):1549-58, 1558.e1
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Abstract
BACKGROUND & AIMS Sodium chenodeoxycholate (CDC) accelerates colonic transit in health. Our aim was to examine pharmacodynamics (colonic transit, bowel function) and pharmacogenetics of CDC in constipation-predominant irritable bowel syndrome (IBS-C). METHODS In a double-blind placebo-controlled study, 36 female patients with IBS-C were randomized to treatment with delayed-release oral formulations of placebo, 500 mg CDC, or 1000 mg CDC for 4 days. We assessed gastrointestinal and colonic transit, stool characteristics, and associations of transit with fasting serum 7αC4 (surrogate of bile acid synthesis) and FGF19 (negative regulator of bile acid synthesis) levels. Candidate genetic polymorphisms involved in regulation of bile acid synthesis were analyzed in the 36 patients with IBS-C and 57 healthy volunteers to assess genetic influence on effects of CDC on transit. RESULTS Overall colonic transit and ascending colon emptying (AC t(½)) were significantly accelerated in the CDC group compared with placebo (P = .005 and P = .028, respectively). Looser stool consistency (P = .003), increased stool frequency (P = .018), and greater ease of passage (P = .024) were noted with CDC compared with placebo. The most common side effect was lower abdominal cramping/pain (P = .01). Fasting serum 7αC4 (but not FGF19) was positively associated with colonic transit (r(s) = 0.749, P = .003, placebo group). Genetic variation in FGFR4 was associated with AC t(½) in response to CDC (uncorrected P = .015); αKlothoβ variant showed a gene-by-treatment interaction based on patient subgroup (uncorrected P = .0088). CONCLUSIONS CDC accelerates colonic transit and improves bowel function in female patients with IBS-C. The rate of bile acid synthesis influences colonic transit. Genetic variation in negative feedback inhibition of bile acid synthesis may affect CDC-mediated acceleration of colonic transit.
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Effects of chenodeoxycholate and a bile acid sequestrant, colesevelam, on intestinal transit and bowel function.
Odunsi-Shiyanbade, ST, Camilleri, M, McKinzie, S, Burton, D, Carlson, P, Busciglio, IA, Lamsam, J, Singh, R, Zinsmeister, AR
Clinical gastroenterology and hepatology : the official clinical practice journal of the American Gastroenterological Association. 2010;(2):159-65
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Abstract
BACKGROUND & AIMS Di-alpha hydroxy bile salt, sodium chenodeoxycholate (CDC), and bile acid binding have unclear effects on colonic transit in health and disease. METHODS We performed 2 randomized, double-blind, placebo-controlled studies. In healthy volunteers (20 per group), we evaluated the effects of oral placebo, 500 mg, or 1000 mg of CDC (delayed-release, each given for 4 days) on gastrointestinal and colonic transit. A second trial compared the effects of colesevelam (1.875 g, twice daily) versus placebo in 24 patients (12 per group) with diarrhea-predominant irritable bowel syndrome (IBS-D) on transit, daily bowel frequency and consistency, and colonic mucosal permeability. Serum fasting 7alpha-hydroxy-4-cholesten-3-one (7alphaC4) was measured to screen for bile acid malabsorption. Effects of treatments on transit were compared using analysis of covariance with body mass index and 7alphaC4 as covariates. RESULTS In healthy volunteers, CDC significantly accelerated colonic transit (at 24 and 48 hours, P = .01 and P < .0001, respectively), increased stool frequency and ease of passage (both P < .001), and evacuation (P = .02), and decreased stool consistency (P < .001). Four of the 24 IBS-D patients had increased serum 7alphaC4 levels. In IBS-D, colesevelam modestly affected overall colonic transit (24 h; P = .22). Emptying of the ascending colon took an average of 4 hours longer in patients given colesevelam compared with placebo; treatment effect was associated with baseline serum 7alphaC4 levels (P = .0025). Colesevelam was associated with greater ease of stool passage (P = .048) and somewhat firmer stool consistency (P = .12). No effects on mucosal permeability or safety were identified. CONCLUSIONS Sodium chenodeoxycholate in health and colesevelam in IBS-D patients have opposite effects on colonic transit and fecal parameters.