Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0022104 (irritable bowel syndrome)
8,033 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Anaerobic fermentation of the undigested polysaccharide fraction of carbohydrates produces hydrogen in the intestine which is the substrate for methane production by intestinal methanogens. Hydrogen and methane are excreted in the flatus and in breath giving the opportunity to indirectly measure their production using breath testing. Although methane is detected in 30%-50% of the healthy adult population worldwide, its production has been epidemiologically and clinically associated with constipation related diseases, like constipation predominant irritable bowel syndrome and chronic constipation. While a causative relation is not proven yet, there is strong evidence from animal studies that methane delays intestinal transit, possibly acting as a neuromuscular transmitter. This evidence is further supported by the universal finding that methane production (measured by breath test) is associated with delayed transit time in clinical studies. There is also preliminary evidence that antibiotic reduction of methanogens (as evidenced by reduced methane production) predicts the clinical response in terms of symptomatic improvement in patients with constipation predominant irritable bowel syndrome. However, we have not identified yet the mechanism of action of methane on intestinal motility, and since methane production does not account for all constipation associated cases, there is need for high quality clinical trials to examine methane as a biomarker for the diagnosis or as a biomarker that predicts antibiotic treatment response in patients with constipation related disorders.
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PMID:Methanogens, methane and gastrointestinal motility. 2446 43

We sought to determine whether a low fermentable substrate diet (LFSD) decreases abdominal pain frequency in children with irritable bowel syndrome (IBS) and to identify potential microbial factors related to diet efficacy. Pain symptoms, stooling characteristics, breath hydrogen and methane, whole intestinal transit time, stool microbiome, and metabolite composition were collected and/or documented in eight children with IBS at baseline and during one week of an LFSD intervention. Pain frequency (P<0.05), pain severity (P<0.05), and pain-related interference with activities (P<0.05) decreased in the subjects while on the LFSD. Responders vs. non-responders: four children (50%) were identified as responders (> 50% decrease in abdominal pain frequency while on the LFSD). There were no differences between responders and non-responders with respect to hydrogen production, methane production, stooling characteristics, or gut transit time. Responders were characterized by increased pre-LFSD abundance of bacterial taxa belonging to the genera Sporobacter (P<0.05) and Subdoligranulum (P<0.02) and decreased abundance of taxa belonging to Bacteroides (P<0.05) relative to non-responders. In parallel, stool metabolites differed between responders and non-responders and were associated with differences in microbiome composition. These pilot study results suggest that an LFSD may be effective in decreasing GI symptoms in children with IBS. Microbial factors such as gut microbiome composition and stool metabolites while on the diet may relate to LFSD efficacy.
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PMID:Gut microbiota influences low fermentable substrate diet efficacy in children with irritable bowel syndrome. 2463 1

Carbohydrate malabsorption is a frequent but underestimated cause of unexplained gastrointestinal symptoms like meteorism, flatulence, pain and diarrhea. By means of hydrogen and/or methane breath test after ingestion of the respective carbohydrate it can be identified and diagnosed easily, fast and reliably by successful nutritional therapy. Besides the well known complaints caused by lactose and fructose malabsorption, other fermentable oligo-, di-, or monosaccharides and polyols (akronym: FODMAP) can cause abdominal discomfort and IBS-like symptoms. In addition to lactose (dairy products) and fructose (apples, pears, mango, watermelon), FODMAPs comprise galactans (legumes), fructans (wheat, onions, garlic, artichoke) and the artificial sweeteners sorbitol, mannitol, maltitol and xylitol (sugar free candy, light products). A general restriction of all FODMAP components can be beneficial in relieving symptoms and improving quality of life in patients with functional gastrointestinal complaints.
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PMID:[Malabsorption of fermentable oligo-, di-, or monosaccharides and polyols (FODMAP) as a common cause of unclear abdominal discomfort]. 2489 70

The goal of this study was to determine if fecal metabolite and microbiota profiles can serve as biomarkers of human intestinal diseases, and to uncover possible gut microbe-metabolite associations. We employed proton nuclear magnetic resonance to measure fecal metabolites of healthy children and those diagnosed with diarrhea-predominant irritable bowel syndrome (IBS-D). Metabolite levels were associated with fecal microbial abundances. Using several ordination techniques, healthy and irritable bowel syndrome (IBS) samples could be distinguished based on the metabolite profiles of fecal samples, and such partitioning was congruent with the microbiota-based sample separation. Measurements of individual metabolites indicated that the intestinal environment in IBS-D was characterized by increased proteolysis, incomplete anaerobic fermentation and possible change in methane production. By correlating metabolite levels with abundances of microbial genera, a number of statistically significant metabolite-genus associations were detected in stools of healthy children. No such associations were evident for IBS children. This finding complemented the previously observed reduction in the number of microbe-microbe associations in the distal gut of the same cohort of IBS-D children.
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PMID:The networks of human gut microbe-metabolite associations are different between health and irritable bowel syndrome. 2563 40

Small intestinal bacterial overgrowth (SIBO) is a disease of great clinical and socioeconomic importance caused by an excessive amount of bacteria in the upper alimentary tract. Physiological microbiota are replaced by pathogenic bacteria mainly from large intestine, which is called dysbacteriosis. SIBO disturbs digestion and absorption in the alimentary tract, which seems to cause inflammation. SIBO affects the morphology and function of the digestive system and causes systemic complications (e.g. osteoporosis, macrocytic anemia). Inflammation interferes with gene expression responsible for producing and secreting mucus, therefore, a correlation between SIBO and cystic fibrosis, irritable bowel syndrome and chronic abdominal pain are postulated. All conditions leading to bacterial growth such as congenital and anatomical abnormalities in the digestive tract, motility disorder or immunological deficits are risk factors of SIBO. A typical clinical manifestation of SIBO comprises meteorism, enterectasia, abdominal discomfort and diarrhea. Diagnostic procedures such as glucose, lactulose, methane, 13C mixed triglyceride breath tests are being used in diagnosing SIBO.
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PMID:Current views on the etiopathogenesis, clinical manifestation, diagnostics, treatment and correlation with other nosological entities of SIBO. 2565 82

A large number of clinical studies using breath testing and a smaller number of studies using quantitative cultures of the upper small intestine established a link between irritable bowel syndrome (IBS) and small intestinal bacterial overgrowth (SIBO). A series of 12 studies both prospective and retrospective in design in a population of patients with SIBO without IBS showed that the non-absorbable antibiotic rifaximin can eradicate SIBO as proved through decrease of the exhaled hydrogen and methane in breath tests. The efficacy of rifaximin was superior over the comparator treatment in most of these studies. Based on these findings, short course rifaximin was tested in various concentrations in eight open-label trials in patients with IBS and proven SIBO by breath test. Similar efficacy of rifaximin was shown in SIBO eradication; this was accompanied by improvement of the global score for IBS symptoms. Finally, five double-blind randomized clinical trials were conducted in patients with IBS; four were placebo-controlled. The larger trials were TARGET 1 and TARGET 2 studies testing rifaximin at a regimen of 550 mg tid for 14 days. All trials showed a significant superiority of rifaximin over comparator for the improvement of global symptoms of IBS and bloating. Although the aforementioned results render rifaximin a revolutionary therapeutic approach for IBS, several concerns on induction of antimicrobial resistant flora remain.
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PMID:Rifaximin: The Revolutionary Antibiotic Approach for Irritable Bowel Syndrome. 2620 93

The pathophysiology of irritable bowel syndrome (IBS) remains unclear. Here we investigated the microbiome of a large cohort of patients to identify specific signatures for IBS subtypes. We examined the microbiome of 113 patients with IBS and 66 healthy controls. A subset of these participants provided two samples one month apart. We analyzed a total of 273 fecal samples, generating more than 20 million 16S rRNA sequences. In patients with IBS, a significantly lower microbial diversity was associated with a lower relative abundance of butyrate-producing bacteria (P = 0.002; q < 0.06), in particular in patients with IBS-D and IBS-M. IBS patients who did not receive any treatment harboured a lower abundance of Methanobacteria compared to healthy controls (P = 0.005; q = 0.05). Furthermore, significant correlations were observed between several bacterial taxa and sensation of flatulence and abdominal pain (P < 0.05). Altogether, our findings showed that IBS-M and IBS-D patients are characterized by a reduction of butyrate producing bacteria, known to improve intestinal barrier function, and a reduction of methane producing microorganisms a major mechanism of hydrogen disposal in the human colon, which could explain excess of abdominal gas in IBS.
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PMID:Reduction of butyrate- and methane-producing microorganisms in patients with Irritable Bowel Syndrome. 2623 1

Lactose intolerance is the most prevalent intestinal malabsorption disorder. After presentation of its history, the author describes the emergence of lactose intolerance during the evolution of species, and the biochemistry of lactose as well as features of human and bacterial lactase enzymes are then described. The unequal distribution of lactose intolerance in different continents and population is discussed, followed by presentation of past and present prevalence data in Hungary. Adult-type hypolactasia is caused by a polymorphism of the MCM6 gene located upstream from the lactase gene on the long arm of the chromosome 2. It can be determined with the polymerase chain reaction. The intestinal symptoms of lactose intolerance are well known, but its extra-intestinal manifestations are less recognised. Invasive diagnostic methods (determination of lactase activity from small intestinal biopsies, lactose tolerance test), are accurate, but have been replaced by the non-invasive methods; their gold standard is the H2 breath test. Genetic testing is being used more and more frequently in Hungary too, and, presumably, the methane breath test will be also available in the near future. Lactose intolerance can be accompanied by inflammatory bowel diseases, coeliac disease and irritable bowel syndrome; it could be established whether this association is causal or not in order to start a correct diet and therapy.
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PMID:[Lactose intolerance: past and present. Part 1]. 2655 Jun 99

Methane is produced exclusively through anaerobic fermentation of both endogenous and exogenous carbohydrates by methanogens. Methane production is detectable in about one third of healthy adult individuals. In recent years, many studies have found that methanogens played an important role in maintaining stability in the gut microbiota. Researches have paid much attention on the metabolism of the methane in the gut. The relationship between methane and intestinal dysfunction has also been investigated. The number of methanogens in irritable bowel syndrome patients is different when compared with the normal individuals. Besides, methanogens are potentially linked with obesity. This article reviewes the role of methanogens in gastrointestinal homeostasis and intestinal diseases (irritable bowel syndrome, colon cancer), as well as the relation between methanogens and obesity.
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PMID:[Methanogen and human gut health--A review]. 2656 89

Kiwifruits are recognized as providing relief from constipation and symptoms of constipation-predominant irritable bowel syndrome (IBS-C). However, the underlying mechanisms, specifically in regards to gastrointestinal transit time and motility, are still not completely understood. This review provides an overview on the physiological and pathophysiological processes underlying constipation and IBS-C, the composition of kiwifruit, and recent advances in the research of kiwifruit and abdominal comfort. In addition, gaps in the research are highlighted and scientific studies of other foods with known effects on the gastrointestinal tract are consulted to find likely mechanisms of action. While the effects of kiwifruit fiber are well documented, observed increases in gastrointestinal motility caused by kiwifruit are not fully characterized. There are a number of identified mechanisms that may be activated by kiwifruit compounds, such as the induction of motility via protease-activated signaling, modulation of microflora, changes in colonic methane status, bile flux, or mediation of inflammatory processes.
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PMID:Putative mechanisms of kiwifruit on maintenance of normal gastrointestinal function. 2855 73


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