Short-chain fatty acids stimulate colonic transit via intraluminal 5-HT release in rats.
about
The role of mechanical forces and adenosine in the regulation of intestinal enterochromaffin cell serotonin secretionGut microbiota role in irritable bowel syndrome: New therapeutic strategiesPhysiological underpinnings of irritable bowel syndrome: neurohormonal mechanismsIntestinal secretory mechanisms in irritable bowel syndrome-diarrheaEscherichia coli Nissle 1917 enhances bioavailability of serotonin in gut tissues through modulation of synthesis and clearance.Microbial endocrinology: the interplay between the microbiota and the endocrine systemInterdigestive migrating motor complex -its mechanism and clinical importanceMechanism of interdigestive migrating motor complex.Laxative effects of partially defatted flaxseed meal on normal and experimental constipated mice.Quantification of luminally released serotonin in rat proximal colon by capillary electrophoresis with laser-induced fluorescence detection.Potential role of fecal microbiota from patients with slow transit constipation in the regulation of gastrointestinal motility.Lipid receptors and islet function: therapeutic implications?Intestinal microbiota in pathophysiology and management of irritable bowel syndrome.Glyphosate, pathways to modern diseases II: Celiac sprue and gluten intoleranceChanges of the human gut microbiome induced by a fermented milk productThe role of 5-HT3 and 5-HT4 receptors in the adaptive mechanism of colonic transit following the parasympathetic denervation in ratsSerotonin and GI Disorders: An Update on Clinical and Experimental Studies.Fermentable oligosaccharides, disaccharides, monosaccharides and polyols: role in irritable bowel syndrome.Review article: fructose malabsorption and the bigger picture.The stimulatory adenosine receptor ADORA2B regulates serotonin (5-HT) synthesis and release in oxygen-depleted EC cells in inflammatory bowel diseaseAlteration of gut microbiota and efficacy of probiotics in functional constipationIndigenous bacteria from the gut microbiota regulate host serotonin biosynthesis.Is fecal microbiota transplantation (FMT) an effective treatment for patients with functional gastrointestinal disorders (FGID)?Pharmacology of serotonin: what a clinician should know.Beta glucan: health benefits in obesity and metabolic syndrome.Control of brain development, function, and behavior by the microbiomeBeyond phylotyping: understanding the impact of gut microbiota on host biology.Targeting GPR120 and other fatty acid-sensing GPCRs ameliorates insulin resistance and inflammatory diseases.Rationale for Investigating Stool Metabolites and Microbiota in Women With Fecal Incontinence.Probiotic alternatives to reduce gastrointestinal infections: the poultry experience.Short- and long-term dynamics in the intestinal microbiota following ingestion of Bifidobacterium animalis subsp. lactis GCL2505FFA2 activation combined with ulcerogenic COX inhibition induces duodenal mucosal injury via the 5-HT pathway in rats.Posttraumatic Stress Disorder: Does the Gut Microbiome Hold the Key?The importance of the gastrointestinal tract in the control of bone mass accrualTRPA1 regulates gastrointestinal motility through serotonin release from enterochromaffin cellsAltered Colonic Bacterial Fermentation as a Potential Pathophysiological Factor in Irritable Bowel Syndrome.Developmental origins of colon smooth muscle dysfunction in IBS-like ratsIntestinal microbiota and immune function in the pathogenesis of irritable bowel syndrome.Efficacy of Synbiotics in Patients with Slow Transit Constipation: A Prospective Randomized TrialAntibiotics-induced depletion of mice microbiota induces changes in host serotonin biosynthesis and intestinal motility.
P2860
Q24629948-5CF7273D-C154-4776-9471-2F6933E22C08Q26768550-4A8F6F3E-D76B-43B6-8620-170511C01C97Q26830683-E69E51FA-9824-46AE-B2AA-BB6DA713EA5AQ26853285-95C01412-6980-4697-BE71-AF0091042E97Q27304899-D5F76D8C-0A28-4B03-8180-0532306D9CDCQ28083570-46035C52-6CD3-407B-ADFE-E1820B619BB1Q28817940-98B0C38D-3063-4BB2-8A48-BBF5911D4B5BQ30465489-7760B819-8D84-4714-BDBA-709DE58AA2F6Q31050112-0E4B91FC-5F97-4C33-BADB-B63359F79E94Q33412412-ED302965-0C8C-40C1-A7E2-12C33CBAD1E1Q33674166-0B0835EA-4A41-4A56-B659-D6201344079EQ33930824-D1F1A5DC-BDE7-4D00-8AA6-1C5C46D3AFC2Q33958729-D3B04721-EBE5-4332-824E-C962D3D8A138Q34040370-761B7FE8-5A2F-4039-A830-D84C96A6D9BFQ34162526-B91F9B4F-9054-4D73-A33C-832E9E3BCF3DQ34297775-2DDBB596-6A60-4750-AC12-0238FBB0A12EQ34317503-81D8ADC1-AADE-4DB7-B998-D5DA38F89A22Q34420107-07ED0D00-AA19-4E8C-A751-344CBAC35784Q34600800-405C0E03-DDB6-4E0C-A557-EBED67B6C180Q34701850-5CF38333-F871-4DF3-80D2-2ED0D82ACA82Q34882149-4E60408A-F523-46A0-BB37-15CB5BD65770Q35366986-CCC3DB30-E19E-4E4B-BC55-657E02A94718Q35450209-A813E237-3AC4-454D-BAE7-6E744ECBAA75Q35596862-0F256CA0-9B77-4332-ACD4-78D140C4633DQ35609234-6A9BE395-0242-436F-8913-137F7CE65B37Q35631733-8BA57F63-B2BB-4450-AEE7-EAC132018107Q35915240-392E7DF2-6DFB-422C-9168-B5D115EE1549Q36165684-87A311A2-983E-4123-A50E-2A29396753B9Q36242190-B04B3373-5E6D-47CD-B892-B53F11397443Q36257842-84BF7BB4-41AA-4C95-9604-D3ECBD3D3805Q36265114-070E24F4-2969-420D-A26A-BFAA7756574AQ36376786-AE7D18D2-3A3F-455F-AE14-6E3B0284184DQ36694893-CC0DAEF2-B94E-46C1-BADC-6108E255E692Q36994142-2C23CF6B-6242-45F0-A1BC-E3E6A4495D8BQ37117587-0720CCF5-804C-44A6-A326-7E609820CD88Q37172906-14B5B9F8-0CE7-4CE4-A2B9-403774E1AAE6Q37234693-542B47FC-B91F-46AE-A3BD-E572015543C3Q37234770-25D3FBF6-E184-468C-8961-EAB5A1AF7367Q37373827-F325E65A-249E-4D97-82D2-611BFA9605F7Q37586495-BC67724E-5642-4BC3-ACA8-67F5F3F252CA
P2860
Short-chain fatty acids stimulate colonic transit via intraluminal 5-HT release in rats.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Short-chain fatty acids stimulate colonic transit via intraluminal 5-HT release in rats.
@en
Short-chain fatty acids stimulate colonic transit via intraluminal 5-HT release in rats.
@nl
type
label
Short-chain fatty acids stimulate colonic transit via intraluminal 5-HT release in rats.
@en
Short-chain fatty acids stimulate colonic transit via intraluminal 5-HT release in rats.
@nl
prefLabel
Short-chain fatty acids stimulate colonic transit via intraluminal 5-HT release in rats.
@en
Short-chain fatty acids stimulate colonic transit via intraluminal 5-HT release in rats.
@nl
P2093
P2860
P1476
Short-chain fatty acids stimulate colonic transit via intraluminal 5-HT release in rats.
@en
P2093
Chris Mantyh
Makoto Tatewaki
Mary Harris
Mineko Fujimiya
Miranda Voss
Satoshi Fukumoto
Steve Eubanks
Tadanori Yamada
Theodore N Pappas
Toku Takahashi
P2860
P304
P356
10.1152/AJPREGU.00442.2002
P577
2003-05-01T00:00:00Z