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High-altitude exposures and intestinal barrier dysfunction.
McKenna, ZJ, Gorini Pereira, F, Gillum, TL, Amorim, FT, Deyhle, MR, Mermier, CM
American journal of physiology. Regulatory, integrative and comparative physiology. 2022;(3):R192-R203
Abstract
Gastrointestinal complaints are often reported during ascents to high altitude (>2,500 m), though their etiology is not known. One potential explanation is injury to the intestinal barrier which has been implicated in the pathophysiology of several diseases. High-altitude exposures can reduce splanchnic perfusion and blood oxygen levels causing hypoxic and oxidative stress. These stressors might injure the intestinal barrier leading to consequences such as bacterial translocation and local/systemic inflammatory responses. The purpose of this mini-review is to 1) discuss the impact of high-altitude exposures on intestinal barrier dysfunction and 2) present medications and dietary supplements which may have relevant impacts on the intestinal barrier during high-altitude exposures. There is a small but growing body of evidence which shows that acute exposures to high altitudes can damage the intestinal barrier. Initial data also suggest that prolonged hypoxic exposures can compromise the intestinal barrier through alterations in immunological function, microbiota, or mucosal layers. Exertion may worsen high-altitude-related intestinal injury via additional reductions in splanchnic circulation and greater hypoxemia. Collectively these responses can result in increased intestinal permeability and bacterial translocation causing local and systemic inflammation. More research is needed to determine the impact of various medications and dietary supplements on the intestinal barrier during high-altitude exposures.
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2.
Clinical Application of Enteral Nutrition Combined with Microbial Preparation for Intestinal Preparation in Elderly Patients with Colorectal Cancer.
Shen, Y, Zhao, X, Zhao, H, Chen, N, Wang, J, Zhuang, H, Zhang, X
Medical science monitor : international medical journal of experimental and clinical research. 2022;:e935366
Abstract
BACKGROUND The purpose of this study was to determine the safety and efficacy of enteral nutrition in combination with microbial preparations for bowel preparation in elderly patients with colorectal cancer. MATERIAL AND METHODS Were divided 160 patients diagnosed with colorectal cancer into a control group (n=80) and an experimental group (n=80) by random number table method. The control group took the traditional intestinal preparation, and the experimental group took oral enteral nutrition combined with microbial preparations. Both groups were treated by the same medical team. The postoperative recovery, complications, nutritional status, inflammation, and other indicators of the 2 groups were compared. RESULTS The nutritional status of the experimental group was significantly better than that of the control group, the incidence of tissue inflammation and postoperative complications was significantly lower than that of the control group, and the stool test results of patients with postoperative diarrhea were better than those of the control group, and the difference between groups was statistically significant. CONCLUSIONS The intestinal preparation using enteral nutrition combined with microbial preparations can alleviate the systemic inflammatory response in elderly patients, improve the nutritional status, reduce the occurrence of postoperative complications, and facilitate rapid postoperative recovery.
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A comprehensive review of hypomagnesemia.
Ehrenpreis, ED, Jarrouj, G, Meader, R, Wagner, C, Ellis, M
Disease-a-month : DM. 2022;(2):101285
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Human intestinal lipid storage through sequential meals reveals faster dinner appearance is associated with hyperlipidemia.
Jacome-Sosa, M, Hu, Q, Manrique-Acevedo, CM, Phair, RD, Parks, EJ
JCI insight. 2021;(15)
Abstract
BackgroundIt is increasingly recognized that intestinal cells can store lipids after a meal, yet the effect of this phenomenon on lipid absorption patterns in insulin resistance remains unknown.MethodsThe kinetics of meal fat appearance were measured in insulin-sensitive (IS, n = 8) and insulin-resistant (IR, n = 8) subjects after sequential, isotopically labeled lunch and dinner meals. Plasma dynamics on triacylglycerol-rich (TAG-rich) lipoproteins and plasma hormones were analyzed using a nonlinear, non-steady state kinetic model.ResultsAt the onset of dinner, IS subjects showed an abrupt plasma appearance of lunch lipid consistent with the "second-meal effect," followed by slower appearance of dinner fat in plasma, resulting in reduced accumulation of dinner TAG of 48% compared with lunch. By contrast, IR subjects exhibited faster meal TAG appearance rates after both lunch and dinner. This effect of lower enterocyte storage between meals was associated with greater nocturnal and next-morning hyperlipidemia. The biochemical data and the kinetic analysis of second-meal effect dynamics are consistent with rapid secretion of stored TAG bypassing lipolysis and resynthesis. In addition, the data are consistent with a role for the diurnal pattern of plasma leptin in regulating the processing of dietary lipid.ConclusionThese data support the concept that intestinal lipid storage may be physiologically beneficial in IS subjects.Trial registrationClinicalTrials.gov NCT02020343.FundingThis study was supported by a grant from the American Diabetes Association (grant 1-13-TS-12).
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Tripartite relationship between gut microbiota, intestinal mucus and dietary fibers: towards preventive strategies against enteric infections.
Sauvaitre, T, Etienne-Mesmin, L, Sivignon, A, Mosoni, P, Courtin, CM, Van de Wiele, T, Blanquet-Diot, S
FEMS microbiology reviews. 2021;(2)
Abstract
The human gut is inhabited by a large variety of microorganims involved in many physiological processes and collectively referred as to gut microbiota. Disrupted microbiome has been associated with negative health outcomes and especially could promote the onset of enteric infections. To sustain their growth and persistence within the human digestive tract, gut microbes and enteric pathogens rely on two main polysaccharide compartments, namely dietary fibers and mucus carbohydrates. Several evidences suggest that the three-way relationship between gut microbiota, dietary fibers and mucus layer could unravel the capacity of enteric pathogens to colonise the human digestive tract and ultimately lead to infection. The review starts by shedding light on similarities and differences between dietary fibers and mucus carbohydrates structures and functions. Next, we provide an overview of the interactions of these two components with the third partner, namely, the gut microbiota, under health and disease situations. The review will then provide insights into the relevance of using dietary fibers interventions to prevent enteric infections with a focus on gut microbial imbalance and impaired-mucus integrity. Facing the numerous challenges in studying microbiota-pathogen-dietary fiber-mucus interactions, we lastly describe the characteristics and potentialities of currently available in vitro models of the human gut.
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Kinetics of Intestinal Presence of Spores Following Oral Administration of Bacillus clausii Formulations: Three Single-Centre, Crossover, Randomised, Open-Label Studies.
Navarra, P, Milleri, S, Perez Iii, M, Uboldi, MC, Pellegrino, P, Bois De Fer, B, Morelli, L
European journal of drug metabolism and pharmacokinetics. 2021;(3):375-384
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Abstract
UNLABELLED BACKGROUND AND OBJECTIVE Probiotics are live microorganisms that may provide benefits including the prevention of gastrointestinal disorders and other diseases. Enterogermina is a probiotic mix of spores from four strains of Bacillus clausii (O/C, T, N/R and SIN), available in several oral formulations. The objective of this analysis was to evaluate and compare the kinetic profiles of different formulations of Enterogermina-vial [E4 once daily (OD) and E2 twice daily (BID)], capsule [EC2 three times daily (TID)], oral powder for suspension (ES6 OD) and oral powder not requiring suspension (E6 OD) from two studies from 2012 (EUDRACT 2010-024497-19 and 2010-023187-41) and one study from 2016 (EUDRACT 2015-003330-27). METHODS B. clausii spores were counted in homogenised faecal samples (results expressed as counts per gram) or after culture at 37 °C for 24-36 h (results expressed as colony-forming units). Kinetics were assessed by area under the concentration-time curve (AUC), maximum concentration (Cmax), time to maximum concentration (Tmax) and spore presence/persistence. RESULTS In total, 22 subjects in each of the 2012 studies and 30 subjects in the 2016 study were randomised (mean age 25.0-33.8 years across studies). The mean (±SD) absolute faecal spore counts (in millions) expressed as AUC per hour were 270.7 ± 147.7 (E2 BID) and 213.8 ± 60.2 (E4 OD) in 2012 EGKINETIC4, 312.7 ± 218.0 (EC2 TID) and 319.0 ± 221.1 (ES6 OD) in 2012 EGKINETIC6, and 212.6 ± 118.0 (E6 OD) and 293.2 ± 247.2 (ES6 OD) in 2016 EGKINETIC6OP. The kinetic profiles of the different formulations of Enterogermina were similar, with superimposable AUC and daily curve profiles in each study up to the 8th day post dose. B. clausii spore presence/persistence in the intestine of healthy volunteers did not differ between the two formulations within each of the three studies. Enterogermina was well tolerated across all formulations and studies. CONCLUSION These results show different formulations of Enterogermina had similar kinetic profiles within each study; however, they also showed that probiotics could be associated with high variability. The European Medicines Agency guidelines are the current bioequivalence reference, although only the Tmax parameter is used for high variability drugs. Due to the specific kinetics of probiotics, new parameters of bioequivalence could be necessary, considering, for example, variability via a parameter such as AUC. TRIAL REGISTRATION EUDRACT 2010-024497-19, 2010-023187-41 and 2015-003330-27.
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Re-evaluating Blood Markers as Predictors of Outcome in Multivisceral and Intestinal Transplantation.
Cheung, D, Garcia, J, Beduschi, T, Langshaw, A, Arheart, K, Wunsch, C, Vianna, R, Gonzalez, IA
Transplantation proceedings. 2021;(2):696-704
Abstract
BACKGROUND Multivisceral transplant (MVTx) and isolated intestinal transplant (ITx) are complex surgical procedures. The subsequent proinflammatory state in the immediate postoperative period makes interpretation of blood markers difficult. METHOD We aimed to establish the course of various blood markers after MVTx/ITx, and to evaluate their use as diagnostic markers of complications. This was a single center prospective cohort. We analyzed blood markers collected preoperatively, on alternate days for the first postoperative week, and then weekly for 4 weeks. This study was in compliance with The Declaration of Helsinki. RESULTS Over a 16-month period (July 2017-October 2018), 20 subjects aged 2 to 67 years with a median age of 24.5 years received MVTx/ITx. Twelve recipients (60%) had an infection. Neutrophil lymphocyte count ratio (NLCR) was higher than established upper limits of normal, regardless of infection status. NLCR and white blood cell count were useful to identify infected MVTx/ITx recipients, with P values <.05 for 2 and 1 of 7 time points post transplant, respectively. Higher preoperative eosinophil% predicted future acute cellular rejection (P value .023). CONCLUSIONS This is the first study to extensively track the course of blood markers post MVTx/ITx and identified NLCR and white blood cell count as potential diagnostic blood markers of infection.
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Role of growth hormone in hepatic and intestinal triglyceride-rich lipoprotein metabolism.
Maraninchi, M, Calabrese, A, Nogueira, JP, Castinetti, F, Mancini, J, Mourre, F, Piétri, L, Bénamo, E, Albarel, F, Morange, I, et al
Journal of clinical lipidology. 2021;(5):712-723
Abstract
BACKGROUND Elevated plasma concentrations of hepatic- and intestinally-derived triglyceride-rich lipoproteins (TRL) are implicated in the pathogenesis of atherosclerotic cardiovascular disease and all-cause mortality. Excess of TRL is the driving cause of atherogenic dyslipidemia commonly occurring in insulin-resistant individuals such as patients with obesity, type 2 diabetes and metabolic syndrome. Interestingly, growth hormone (GH)-deficient individuals display similar atherogenic dyslipidemia, suggesting an important role of GH and GH deficiency in the regulation of TRL metabolism. OBJECTIVE We aimed to examine the direct and/or indirect role of GH on TRL metabolism. METHODS We investigated the effect on fasting and postprandial hepatic-TRL and intestinal-TRL metabolism of short-term (one month) withdrawal of GH in 10 GH-deficient adults. RESULTS After GH withdrawal, we found a reduction in fasting plasma TRL concentration (significant decrease in TRL-TG, TRL-cholesterol, TRL-apoB-100, TRL-apoC-III and TRL-apoC-II) but not in postprandial TRL response. This reduction was due to fewer fasting TRL particles without a change in TG per particle and was not accompanied by a change in postprandial TRL-apoB-48 response. Individual reductions in TRL correlated strongly with increases in insulin sensitivity and decreases in TRL-apoC-III. CONCLUSION In this relatively short term 'loss of function' human experimental model, we have shown an unanticipated reduction of hepatic-TRL particles despite increase in total body fat mass and reduction in lean mass. These findings contrast with the atherogenic dyslipidemia previously described in chronic GH deficient states, providing a new perspective for the role of GH in lipoprotein metabolism.
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Obesity in Humans Is Characterized by Gut Inflammation as Shown by Pro-Inflammatory Intestinal Macrophage Accumulation.
Rohm, TV, Fuchs, R, Müller, RL, Keller, L, Baumann, Z, Bosch, AJT, Schneider, R, Labes, D, Langer, I, Pilz, JB, et al
Frontiers in immunology. 2021;:668654
Abstract
Chronic low-grade inflammation is a hallmark of obesity and associated with cardiovascular complications. However, it remains unclear where this inflammation starts. As the gut is constantly exposed to food, gut microbiota, and metabolites, we hypothesized that mucosal immunity triggers an innate inflammatory response in obesity. We characterized five distinct macrophage subpopulations (P1-P5) along the gastrointestinal tract and blood monocyte subpopulations (classical, non-classical, intermediate), which replenish intestinal macrophages, in non-obese (BMI<27kg/m2) and obese individuals (BMI>32kg/m2). To elucidate factors that potentially trigger gut inflammation, we correlated these subpopulations with cardiovascular risk factors and lifestyle behaviors. In obese individuals, we found higher pro-inflammatory macrophages in the stomach, duodenum, and colon. Intermediate blood monocytes were also increased in obesity, suggesting enhanced recruitment to the gut. We identified unhealthy lifestyle habits as potential triggers of gut and systemic inflammation (i.e., low vegetable intake, high processed meat consumption, sedentary lifestyle). Cardiovascular risk factors other than body weight did not affect the innate immune response. Thus, obesity in humans is characterized by gut inflammation as shown by accumulation of pro-inflammatory intestinal macrophages, potentially via recruited blood monocytes. Understanding gut innate immunity in human obesity might open up new targets for immune-modulatory treatments in metabolic disease.
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Dietary Fibre Intake Is Associated with Serum Levels of Uraemic Toxins in Children with Chronic Kidney Disease.
El Amouri, A, Snauwaert, E, Foulon, A, Vande Moortel, C, Van Dyck, M, Van Hoeck, K, Godefroid, N, Glorieux, G, Van Biesen, W, Vande Walle, J, et al
Toxins. 2021;(3)
Abstract
Imbalanced colonic microbial metabolism plays a pivotal role in generating protein-bound uraemic toxins (PBUTs), which accumulate with deteriorating kidney function and contribute to the uraemic burden of children with chronic kidney disease (CKD). Dietary choices impact the gut microbiome and metabolism. The aim of this study was to investigate the relation between dietary fibre and gut-derived PBUTs in paediatric CKD. Sixty-one (44 male) CKD children (9 ± 5 years) were prospectively followed for two years. Dietary fibre intake was evaluated by either 24-h recalls (73%) or 3-day food records (27%) at the same time of blood sampling for assessment of total and free serum levels of different PBUTs using liquid chromatography. We used linear mixed models to assess associations between fibre intake and PBUT levels. We found an inverse association between increase in fibre consumption (g/day) and serum concentrations of free indoxyl sulfate (-3.1% (-5.9%; -0.3%) (p = 0.035)), free p-cresyl sulfate (-2.5% (-4.7%; -0.3%) (p = 0.034)), total indole acetic acid (IAA) (-1.6% (-3.0%; -0.3%) (p = 0.020)), free IAA (-6.6% (-9.3%; -3.7%) (p < 0.001)), total serum p-cresyl glucuronide (pCG) (-3.0% (-5.6%; -0.5%) (p = 0.021)) and free pCG levels (-3.3% (-5.8%; -0.8%) (p = 0.010)). The observed associations between dietary fibre intake and the investigated PBUTs highlight potential benefits of fibre intake for the paediatric CKD population. The present observational findings should inform and guide adaptations of dietary prescriptions in children with CKD.