De la presencialidad a la virtualidad: migración y frontera en la investigación y docencia superior

La ubicuidad de los medios digitales, en los tiempos presentes de alta algoritmización de la Web 3.0, ejerce una acción transformadora de todas las prácticas humanas. Si en el pasado la revolución tecnológica parecía no trascender usos recreativos en el ámbito del hogar, hoy en día los procesos de enseñanza y aprendizaje, en todos los niveles e incluso en ámbitos formales como la universidad, se encuentran atravesados y definidos por el uso y desarrollo irreversibles de internet y las grandes posibilidades de portación y uso tecnológico provistas por los dispositivos móviles, accesibles a una buena parte de la población mundial. La revolución y ubicuidad tecnológica han modificado las formas de acceso, construcción y distribución del conocimiento y la información, y han suscitado fenómenos como el aprendizaje ubicuo y distribuido y la porosidad de las instituciones de educación formal. La mediación tecnológica ha modificado la manera en que concebimos a la ciencia y a los saberes, cuestionando algunos supuestos que se consideraban relativamente unívocos en el campo de la investigación científica. Los cambios paradigmáticos que comenzaron a palpitarse en los albores de la educación a distancia y que hoy se encuentran en pleno auge con el desarrollo de la educación en línea, tienen una incidencia evidente en la investigación en el nivel superior y en la configuración del rol y responsabilidades del docente universitario.Fil: Orta González, María Dolores. Universidad Nacional de Córdoba. Facultad de Lenguas; Argentina.Fil: Sánchez, María Victoria. Universidad Nacional de Córdoba. Facultad de Lenguas; Argentina

Flavonoids and Related Compounds in Non-Alcoholic Fatty Liver Disease Therapy

P. 2991-3012Non-alcoholic fatty liver disease (NAFLD), the hepatic manifestation of metabolic syndrome, is one of the most common chronic liver diseases, which may progress to fibrosis, cirrhosis and hepatocellular carcinoma. NAFLD is characterized by the accumulation of lipids in the liver arising from multiple factors: increased fatty acid uptake, increased de novo lipogenesis, reduced fatty acid oxidation and very low density lipoproteins (VLDL) secretion. Most therapeutic approaches for this disease are often directed at reducing body mass index and improving insulin resistance through lifestyle modifications, bariatric surgery and pharmacological treatments. Nevertheless, there is increasing evidence that the use of natural compounds, as polyphenols, exert multiple benefits on the disorders associated with NAFLD. These molecules seem to be able to regulate the expression of genes mainly involved in de novo lipogenesis and fatty acid oxidation, which contributes to their lipid-lowering effect in the liver. Their antioxidant, anti-inflammatory, antifibrogenic and antilipogenic properties seem to confer on them a great potential as strategy for preventing NAFLD progression. In this review, we summarized the effects of these compounds, especially flavonoids, and their mechanisms of action, that have been reported in several studies carried out in in vitro and in vivo models of NAFL

Proyecto de una empresa periodística: "11 Culturas"

El proyecto es una propuesta de creación de una empresa periodística, concretamente una Sociedad Limitada que recibe el nombre de 11 Culturas y es un medio de comunicación especializado en cultura malagueña

Estudio preliminar sobre el uso de Signal como aula virtual

Memoria ID-082. Ayudas de la Universidad de Salamanca para la innovación docente, curso 2018-2019

Intestinal microbiota modulation in obesity-related non-alcoholic fatty liver disease

[EN] Obesity and associated comorbidities, including non-alcoholic fatty liver disease (NAFLD), are a major concern to public well-being worldwide due to their high prevalence among the population, and its tendency on the rise point to as important threats in the future. Therapeutic approaches for obesity-associated disorders have been circumscribed to lifestyle modifications and pharmacological therapies have demonstrated limited efficacy. Over the last few years, different studies have shown a significant role of intestinal microbiota (IM) on obesity establishment and NAFLD development. Therefore, modulation of IM emerges as a promising therapeutic strategy for obesity-associated diseases. Administration of prebiotic and probiotic compounds, fecal microbiota transplantation (FMT) and exercise protocols have shown a modulatory action over the IM. In this review we provide an overview of current approaches targeting IM which have shown their capacity to counteract NAFLD and metabolic syndrome features in human patients and animal models.SIThis work was supported by grants to JG-G and SS-C from Ministerio de Economía y Competitividad/FEDER (BFU2017- 87960-R) and Junta de Castilla y León (LE063U16 and GRS 1888/A/18). DP was supported by a fellowship from Junta de Castilla y León co-financed by the European Social Fund. EN was supported by Fundación de Investigación Sanitaria of León. MG-M was supported by CIBERehd contracts. CIBERehd is funded by the Instituto de Salud Carlos III, Spain

454-Pyrosequencing Analysis of Bacterial Communities from Autotrophic Nitrogen Removal Bioreactors Utilizing Universal Primers: Effect of Annealing Temperature

Identification of anaerobic ammonium oxidizing (anammox) bacteria by molecular tools aimed at the evaluation of bacterial diversity in autotrophic nitrogen removal systems is limited by the difficulty to design universal primers for the Bacteria domain able to amplify the anammox 16S rRNA genes. A metagenomic analysis (pyrosequencing) of total bacterial diversity including anammox population in five autotrophic nitrogen removal technologies, two bench-scale models (MBR and Low Temperature CANON) and three full-scale bioreactors (anammox, CANON, and DEMON), was successfully carried out by optimization of primer selection and PCR conditions (annealing temperature). The universal primer 530F was identified as the best candidate for total bacteria and anammox bacteria diversity coverage. Salt-adjusted optimum annealing temperature of primer 530F was calculated (47°C) and hence a range of annealing temperatures of 44–49°C was tested. Pyrosequencing data showed that annealing temperature of 45°C yielded the best results in terms of species richness and diversity for all bioreactors analyzed

Exercise training modulates the gut microbiota profile and impairs inflammatory signaling pathways in obese children

[EN] Childhood obesity has reached epidemic levels and is a serious health concern associated with metabolic syndrome, nonalcoholic fatty liver disease, and gut microbiota alterations. Physical exercise is known to counteract obesity progression and modulate the gut microbiota composition. This study aims to determine the effect of a 12-week strength and endurance combined training program on gut microbiota and inflammation in obese pediatric patients. Thirty-nine obese children were assigned randomly to the control or training group. Anthropometric and biochemical parameters, muscular strength, and inflammatory signaling pathways in mononuclear cells were evaluated. Bacterial composition and functionality were determined by massive sequencing and metabolomic analysis. Exercise reduced plasma glucose levels and increased dynamic strength in the upper and lower extremities compared with the obese control group. Metagenomic analysis revealed a bacterial composition associated with obesity, showing changes at the phylum, class, and genus levels. Exercise counteracted this profile, significantly reducing the Proteobacteria phylum and Gammaproteobacteria class. Moreover, physical activity tended to increase some genera, such as Blautia, Dialister, and Roseburia, leading to a microbiota profile similar to that of healthy children. Metabolomic analysis revealed changes in short-chain fatty acids, branched-chain amino acids, and several sugars in response to exercise, in correlation with a specific microbiota profile. Finally, the training protocol significantly inhibited the activation of the obesity-associated NLRP3 signaling pathway. Our data suggest the existence of an obesity-related deleterious microbiota profile that is positively modified by physical activity intervention. Exercise training could be considered an efficient nonpharmacological therapy, reducing inflammatory signaling pathways induced by obesity in children via microbiota modulation.This work was supported by grants from Ministerio de Economía, Industria y Competitividad (BFU2017–87960-R), Junta de Castilla y León and the European Regional Development Fund (FEDER) (LE063U16 and GRS1888/A/18). CIBERehd is funded by the Instituto de Salud Carlos III, Spain. B.E and M.J.F were supported by a fellowship from Ministerio de Educación (FPU15/05051 and FPU18/06257). E.N. was supported by Fundación de Investigación Sanitaria of León. D.P. was supported by a fellowship from Junta de Castilla y León, cofinanced by the European Social Fund

Beneficial effects of exercise on gut microbiota functionality and barrier integrity, and gut-liver axis crosstalk in an "in vivo" model of early obesity and non-alcoholic fatty liver disease

[EN]Childhood obesity has reached epidemic levels, representing one of the most serious public health concerns associated with metabolic syndrome and non-alcoholic fatty liver disease (NAFLD). There is limited clinical experience concerning pediatric NAFLD patients, and thus the therapeutic options are scarce. The aim of this study was to evaluate the benefits of exercise on gut microbiota composition and functionality balance, and consequent effects on early obesity and NAFLD onset in an in vivo model. Juvenile (21-day-old) male Wistar rats fed a control diet or a high-fat diet (HFD) were subjected to a combined aerobic and resistance training protocol. Fecal microbiota was sequenced by an Illumina MiSeq system, and parameters related to metabolic syndrome, fecal metabolome, intestinal barrier integrity, bile acid metabolism and transport, and alteration of the gut-liver axis were measured. Exercise decreased HFD-induced body weight gain, metabolic syndrome and hepatic steatosis, as a result of its lipid metabolism modulatory capacity. Gut microbiota composition and functionality were substantially modified as a consequence of diet, age and exercise intervention. In addition, the training protocol increased Parabacteroides, Bacteroides and Flavobacterium genera, correlating with a beneficial metabolomic profile, whereas Blautia, Dysgonomonas and Porphyromonas showed an opposite pattern. Exercise effectively counteracted HFD-induced microbial imbalance, leading to intestinal barrier preservation, which, in turn, prevented deregulation of the gut-liver axis and improved bile acid homeostasis, determining the clinical outcomes of NAFLD. In conclusion, we provide scientific evidence highlighting the benefits of gut microbiota composition and functionality modulation by physical exercise protocols in the management of early obesity and NAFLD development.SIThis work was supported by grants from Ministerio de Economıa y Competitividad ́ (BFU2017-87960-R), Junta de Castilla y León and the European Regional Development Fund (FEDER) (LE063U16 and GRS1888/A/18). D.P. and S.C.-P. were supported by a fellowship from Junta de Castilla y León, co-financed by the European Social Fund. E.N. was supported by Fundación de Investigación Sanitaria of León. M.V.G.-M. was supported by contracts from the CIBERehd, which is funded by Instituto de Salud Carlos III