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1	Expression of the Small Intestinal Apical Membrane Hydrolases in the Early-Weaned Piglet Lackeyram, Dale, Anthony 11 May 2012 (has links) The small intestinal mucosal apical hydrolases are essential to the terminal digestion of enteral nutrients such as carbohydrates, proteins, fats and phosphates, and non-immune defense. Weaning results in the complete replacement of fetal enterocytes with mature adult-type enterocytes and is typified by mucosal atrophy, crypt hyperplasia and compromised digestive and defensive functions. Given these severe physiological changes, we hypothesize that the major apical small intestinal hydrolases will be differentially expressed, allowing for reprogramming and adaptation, in the early-weaned piglet. Therefore, the objectives of this study were to examine changes in the digestive capacity, the catalytic kinetics, and abundances of protein and mRNA of the small intestinal hydrolases, including alkaline phosphatase (IAP), lactase phlorizin hydrolase (LPH), sucrase-isomaltase (SI), maltase-glucoamylase (MGA) and aminopeptidase N (APN), in the early-weaned pigs in comparison with suckling pigs. A total of 20 Yorkshire piglets, 10 suckling (SU) and 10 early-weaned (WN) with an average initial body weight of about 3 kg at the age of 10 d, were used in this study. Weanling piglets were fed a corn and soybean meal-based diet for 12 d. Proximal jejunal samples from both groups were collected. Hydrolase kinetic experiments were conducted using the substrates of lactose (0-75 mM), sucrose (0-75 mM), maltose (0-75 mM), amylose (0-100 mM), p-nitrophenyl phosphate (0-10 mM), and L-alanine-p-nitroanilide hydrochloride (0-16 mM). Abundances of the target gene hydrolase protein and mRNA were analyzed by Western blotting and quantitative real time reverse transcription- polymerase chain reaction (RT-PCR), respectively, using ß-actin as a control. Results from this study demonstrate that early weaning down-regulated (P < 0.05) the digestive capacity and expression of LPH while simultaneously increasing (P < 0.05) the digestive capacity and expression of SI and MGA. Furthermore, weaning decreased (P < 0.05) the digestive capacity and expression of APN and IAP by 35 and 50%, respectively. Thus, the early-weaning process differentially affected the expression of the apical membrane-bound hydrolases of the small intestine. The down-regulation of IAP highlights the reduced microbial detoxifying capacity of the newly weaned piglet and provides some insight into the cascade of immune related events that occur during the post-weaning transition period. The reduced expression of LPH and the simultaneous up-regulation of SI, maltase, and MGA indicate the unique nature of the small intestinal reprogramming that occurs during weaning. These results imply that the early weaning events help the small intestine adapt to the transition to starch digestion. Meanwhile, the down-regulation of the APN expression may be partially responsible for the reduced efficiency of whole body protein utilization, and the pervasive localized immune responses observed in the small intestine of early-weaned piglets. / Natural Sciences and Engineering Research Council (NSERC) of Canada Discovery Program, and the Ontario Ministry of Agriculture, Food and Rural Affairs (OMAFRA)-the University of Guelph Partnership Research Program. Early Weaning Small Intestinal Hydrolases Apical membrane hydrolases
2	Rifaximin som behandling vid Small Intestinal Bacteria Overgrowth (SIBO) / Rifaximin for the treatment of small intestinal bacterial overgrowth (SIBO) Hashim Bashir, Nazdar January 2019 (has links) SIBO (Small Intestinal Bacterial Overgrowth) är ett tillstånd där tunntarmen koloniseras av bakterier som normalt finns i tjocktarmen. SIBO utvecklas när de normala homeostatiska mekanismerna som kontrollerar enteriska bakteriepopulationen störs. I tunntarmen ska det finnas väldigt liten mängd bakterier medan i tjocktarmen bör det finnas mycket större mängder bakterier. När bakterierna tar sig in i tunntarmen, resulterar det i SIBO. Denna bakteriella obalans i tunntarmen kan orsaka bland annat uppblåsthet, diarré och magsmärta, förstoppning och försämrat upptag av vitaminer och näringsämnen. Att behandla den underliggande orsaken bakom SIBO är det första steget i behandlingen och om detta inte räcker till, är antibiotikabehandlingen nästa steg. Syftet med denna litteraturstudie var att undersöka hur effektiv Rifaximin är vid behandling av bakteriell överväxt i tunntarmen (SIBO). Arbetet är en litteraturstudie och de vetenskapliga artiklarna är hämtade från databasen Pubmed. I detta arbete har fem studier analyserats. Studie I visade att högdosbehandling med rifaximin gav signifikant ökad behandlingseffekt jämfört med lågdosbehandling hos IBS-patienter. Studie II visade att kombination av amoxicillin och rifaximin kan vara en effektiv förstahandsbehandling för patienter som har både SIBO och H. pylori infektion. Studie III bekräftade att SIBO är underdiagnoserat hos Cystisk fibros patienter och är relaterad till en dålig näringsstatus. Rifaximin är en effektiv behandling av SIBO hos patienter som har Cystisk fibros. Studie IV visade att kombinationen av rifaximin tillsammans med hydrolyserat guargummi verkar vara mer effektivt vid utrotning av SIBO jämfört med enbart rifaximin hos SIBO patienter. Studie V studerade rifaximinbehandlade IBS-patienter och fann att rifaximinbehandling var associerad med acceleration av kolontransitering samt hade svag påverkan på förändringar i mikrobiell artrikedom i feces. Baserat på de fem studierna föreligger det skäliga bevis att behandling med rifaxamin är en effektiv behandling vid SIBO. Mer forskning och studier behövs för att kunna bestämma den bästa dosen samt utvärdera rifaximin i kombination med andra läkemedel. / SIBO (Small Intestinal Bacterial Overgrowth) is a condition where the small intestine is colonized by bacteria normally found in the large intestine. SIBO develops when the normal homeostatic mechanisms controlling the enteric bacterial population are disrupted. In the small intestine, there should be very small number of bacteria while in the large intestine there should be much larger number of bacteria. When the bacteria colonizes the small intestine, it results in SIBO. This bacterial imbalance in the small intestine can cause bloating, diarrhea and stomach pain, constipation and impaired absorption of vitamins and nutrients. Treating the underlying cause of SIBO is the first step in the treatment and if this is not enough, antibiotic treatment is the next step. The purpose of this literature study was to investigate the effectiveness of Rifaximin in treatment of bacterial overgrowth in the small intestine (SIBO). The study is a literature study where the scientific articles were obtained from the database Pubmed. In this literature study, five studies have been analyzed. Study I showed that high-dose treatment with rifaximin significantly increased treatment efficacy compared to low-dose treatment. Study II showed that a combination of amoxicillin and rifaximin can be an effective first-line treatment for patients who have both SIBO and H. pylori infection. Study III confirmed that SIBO is underdiagnosed in CF patients, related to poor nutritional status. Rifaximin is an effective treatment for SIBO in patients who have CF. Study IV also showed a combination treatment where rifaximin together with hydrolyzed guar gum appears to be more effective in eradicating SIBO compared to rifaximin alone. Study V studied rifaximin-treated IBS patients, rifaximin treatment was associated with acceleration of colon transit, and a weak influence on changes in microbial species richness in faeces. Based on the five studies, there is reasonable evidence that a treatment with rifaximin is an effective treatment for SIBO. However, more research and studies are needed to determine the best dose and also rifaximin in combination with other drugs. Small Intestinal Bacterial Overgrowth SIBO Rifaxamin Pharmacology and Toxicology Farmakologi och toxikologi
3	Anastomosenprotektion am Kolorektum durch Umhüllung mit Small intestinal submucosa im Großtiermodell des Schweins / Small intestinal submucosa for reinforcement of colonic anastomosis Crnogorac, Vladan 16 July 2014 (has links) No description available. 610
4	First Metabolic Insights into Ex Vivo Cryptosporidium parvum-Infected Bovine Small Intestinal Explants Studied under Physioxic Conditions Vélez, Juan, Silva, Liliana M. R., Gärtner, Ulrich, Daugschies, Arwid, Mazurek, Sybille, Hermosilla, Carlos, Taubert, Anja 27 April 2023 (has links) The apicomplexan Cryptosporidium parvum causes thousands of human deaths yearly. Since bovines represent the most important reservoir of C. parvum, the analysis of infected bovine small intestinal (BSI) explants cultured under physioxia offers a realistic model to study C. parvum–host cell–microbiome interactions. Here, C. parvum-infected BSI explants and primary bovine small intestinal epithelial cells were analysed for parasite development and metabolic reactions. Metabolic conversion rates in supernatants of BSI explants were measured after infection, documenting an immediate parasite-driven metabolic interference. Given that oxygen concentrations affect cellular metabolism, measurements were performed at both 5% O2 (physiological intestinal conditions) and 21% O2 (commonly used, hyperoxic lab conditions). Overall, analyses of C. parvum-infected BSI explants revealed a downregulation of conversion rates of key metabolites—such as glucose, lactate, pyruvate, alanine, and aspartate—at 3 hpi, followed by a rapid increase in the same conversion rates at 6 hpi. Moreover, PCA revealed physioxia as a driving factor of metabolic responses in C. parvum-infected BSI explants. Overall, the ex vivo model described here may allow scientists to address pending questions as to how host cell–microbiome alliances influence intestinal epithelial integrity and support the development of protective intestinal immune reactions against C. parvum infections in a realistic scenario under physioxic conditions. info:eu-repo/classification/ddc/570 ddc:570
5	Small Intestinal Neuroendocrine Tumor Analyses : Somatostatin Analog Effects and MicroRNA Profiling Li, Su-Chen January 2014 (has links) Small intestinal neuroendocrine tumors (SI-NETs) originate from serotonin-producing enterochromaffin (EC) cells in the intestinal mucosa. Somatostatin analogs (SSAs) are mainly used to control hormonal secretion and tumor growth. However, the molecular mechanisms leading to the control of SI-NETs are unknown. Although microRNAs (miRNAs) are post transcriptional regulators deeply studied in many cancers, are not well-defined in SI-NETs. We adopted a two-pronged strategy to investigate SSAs and miRNAs: first, to provide novel insights into how SSAs control NET cells, and second, to identify an exclusive SI-NET miRNA expression, and investigate the biological functions of miRNA targets. To accomplish the first aim, we treated CNDT2.5 cells with octreotide for 16 months. Affymetrix microarray was performed to study gene variation of CNDT2.5 cells in the presence or absence of octreotide. The study revealed that octreotide induces six genes, ANXA1, ARHGAP18, EMP1, GDF15, TGFBR2 and TNFSF15. To accomplish the second aim, SI-NET tissue specimens were used to run genome-wide Affymetrix miRNA arrays. The expression of five miRNAs (miR-96, -182, -183, -196a and -200a) was significantly upregulated in laser capture microdissected (LCM) tumor cells versus LCM normal EC cells, whereas the expression of four miRNAs (miR-31, -129-5p, -133a and -215) was significantly downregulated in LCM tumor cells. We also detected nine tissue miRNAs in serum samples, showing that the expression of five miRNAs is significantly increased in SSA treated patients versus untreated patients. Conversely, SSAs do not change miRNA expression of four low expressed miRNAs. Silencing miR-196a expression was used to investigate functional activities in NET cells. This experimental approach showed that four miR-196a target genes, HOXA9, HOXB7, LRP4 and RSPO2, are significantly upregulated in silenced miR-196a NET cells. In conclusion, ANXA1, ARHGAP18, EMP1, GDF15, TGFBR2 and TNFSF15 genes might regulate cell growth and differentiation in NET cells, and play a role in an innovative octreotide signaling pathway. The global SI-NET miRNA profiling revealed that nine selected miRNAs might be involved in tumorigenesis, and play a potential role as novel markers for follow-up. Indeed, silencing miR-196a demonstrated that HOXA9, HOXB7, LRP4 and RSPO2 genes are upregulated at both transcriptional and translational levels. Small intestinal neuroendocrine tumors Somatostatin analogs Laser-capture microdissection
6	Biological Abnormalities in the Ruminant Small Intestine and Its Relationship to Carbohydrate Assimilation Trotta, Ronald January 2019 (has links) Several biological abnormalities exist between the ruminant and nonruminant small intestine and influences carbohydrate assimilation. Two experiments were conducted to identify potential mechanisms to improve carbohydrate utilization in cattle. Experiment 1 evaluated the effects of duodenal starch infusions with casein or glutamic acid on post-ruminal carbohydrase activities. Experiment 2 evaluated the effects of dietary fructose on visceral organ development and expression of nutrient transporters and digestive enzymes involved in carbohydrate assimilation. In experiment 1, the results suggest that small intestinal starch digestion may be improved in cattle with increased small intestinal flow of casein through increases in post-ruminal carbohydrase activities. In experiment 2, dietary fructose supply influenced nutrient utilization, visceral organ growth, and digestive enzyme mRNA expression and activity in neonatal calves. cattle digestive enzymes fructose glutamic acid ruminant small intestinal starch digestion
7	The metabolic sequelae of oesophago-gastric resection Roberts, Geoffrey Peter January 2019 (has links) Bypass or resection of the stomach and oesophagus, has long been recognised to result in profound changes in the handling of ingested nutrients. This results in significant morbidity after radical surgery for oesophago-gastric cancer, in particular post-prandial hypoglycaemia, altered appetite, early satiety and noxious post-prandial symptoms. By profiling and challenging the gut hormone axis in healthy volunteers and patients who had undergone total or subtotal gastrectomy, or oesophagectomy, this thesis explores the possible causative mechanisms for the challenges faced by this patient population. In the surgical groups, an oral glucose tolerance test (OGTT) resulted in enhanced secretion of satiety and incretin gut hormones (GLP-1, GIP, PYY) and insulin, followed by hypoglycaemia in a cohort of patients. Continuous glucose monitoring of gastrectomy participants over two weeks of normal lifestyle identified an increased incidence of day and night time hypoglycaemia. RNAseq and mass spectrometry based peptidomics of human and murine enteroendocrine cells in the pre- and post-operative populations revealed no significant change in the underlying cellular pathways for nutrient sensing and gut hormone secretion, indicating that the altered hormone secretion is primarily driven by accelerated nutrient transit, rather than adaptive changes in the gut. Finally, specific blockade of the GLP-1 receptor in post-gastrectomy patients using Exendin 9-39 normalised insulin secretion and prevented reactive hypoglycaemia after an OGTT. In conclusion, profound changes in gut hormone secretion as a result of enhanced nutrient transit after foregut surgery likely underlie the early and late post-prandial symptoms seen in this group, and therapies specifically targeting the gut hormone axis, and GLP-1 in particular, could be the first targeted treatments for post-gastrectomy syndromes.
8	The Effects of Air Pollution on the Intestinal Microbiota: A Novel Approach to Assess How Gut Microbe Interactions with the Environment Affect Human Health Fitch, Megan N. 05 1900 (has links) This thesis investigates how air pollution, both natural and anthropogenic, affects changes in the proximal small intestine and ileum microbiota profile, as well as intestinal barrier integrity, histological changes, and inflammation. APO-E KO mice on a high fat diet were randomly selected to be exposed by whole body inhalation to either wood smoke (WS) or mixed vehicular exhaust (MVE), with filtered air (FA) acting as the control. Intestinal integrity and histology were assessed by observing expression of well- known structural components tight junction proteins (TJPs), matrix metallopeptidase-9 (MMP-9), and gel-forming mucin (MUC2), as well known inflammatory related factors: TNF-α, IL-1β, and toll-like receptor (TLR)-4. Bacterial profiling was done using DNA analysis of microbiota within the ileum, utilizing 16S metagenomics sequencing (Illumina miSeq) technique. Overall results of this experiment suggest that air pollution, both anthropogenic and natural, cause a breach in the intestinal barrier with an increase in inflammatory factors and a decrease in beneficial bacteria. This evidence suggests the possibility of air pollution being a potential causative agent of intestinal disease as well as a possible contributing mechanism for induction of systemic inflammation. intestinal microbiome air pollution inhaled air pollution microbiome microbiota intestinal bacteria SIBO small intestinal bacterial overgrowth dysbiosis atherosclerosis systemic inflammation intestinal inflammation metabolic syndrome autoimmune disease IBD irritable bowel disease irritable bowel syndrome gut bacteria Intestines -- Microbiology. Intestines -- Diseases.

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