View clinical trials related to Metabolism Disorder.
Filter by:This longitudinal design study is a continuation of the EDUGUTION project (Ref: PID2019-110063RA-I00; Clinical Trial: NCT05261373), a randomized controlled trial that was approved by the Clinical Research Ethics Committee of Cadiz (Registration No. 92.21; PEIBA No. 1026-N-21) in 2021. The aim of this study was to determine the benefits of three months of intervention with physical exercise and nutritional counseling on health in patients with type 2 diabetes. Specifically, the aim of the present longitudinal study is to analyze the possible changes that may have occurred in the health and lifestyle habits of the subjects of the EDUGUTION project one year after the end of the study. The tests to be performed are the following: 1) Analysis of sociodemographic information, diet and habits and quality of life with previously validated questionnaires, 2) Fasting blood collection, 3) Anthropometric and body composition assessment, 4) Assessment of physical fitness: manual grip strength and maximal oxygen uptake test. On the same day in the morning, participants will have to go to the University Hospital of Puerto Real and to the Exercise Physiology Laboratory of the Faculty of Education Sciences of the Puerto Real Campus of the University of Cadiz, one year after the end of the EDUGUTION study. Since there is no intervention, the duration of the study is a single day. In this study 120 patients will participate, the same patients who were included based on the inclusion and exclusion criteria and who completed the EDUGUTION study intervention one year earlier.
The reasonable combination of macronutrients including carbohydrates, proteins and fat, is the basis of rational diet and beneficial to treatment of metabolic diseases including obesity and diabetes. Endocrine hormones play pivotal roles in regulation of nutrients metabolism and energy homeostasis. However, the dynamic metabolism following the consumption of macronutrients and the relationship between various metabolites and endocrine hormones during these procedures yet to be adequately explained nowadays. Therefore, in this study, the investigators selected glucose, protein, fat and mixed meal tolerance test (MMTT) for the loading tests, endocrine hormones and metabolites were detected to profile the molecular changes in the plasma. The investigators aimed to explore the nutrient processing patterns of various macronutrients and determine the interaction between metabolic hormones and metabolites.
Obesity and glucose intolerance or overt diabetes are increasing at an alarming rate in the population, and are bound to become a public health issue and a major cause of disability, loss of independence and high social costs in the near future. A large body of evidence has in recent years highlighted, among the negative effects of overnutrition and glucose dysmetabolism, also an acceleration of cognitive decline and of brain senescence, through cellular (vascular, neuronal, or both) and molecular mechanisms still incompletely clarified. Understanding how overweight and impaired glucose homeostasis negatively affect brain function represents both a major scientific challenge and an avenue to early detection and possibly prevention of this invalidating complication. The aim of this project is to obtain neuronal progenitor-like cells from skin fibroblasts in order to correlate patient-specific metabolism to adult neural stem cell (NSC) and neuronal function in vitro.
Dietary interventions have been consistently proposed as a part of a comprehensive strategy to lower the incidence and severity of atherosclerosis and cardiovascular diseases (CVD). Excessive consumption of fats enriched in saturated fatty acids (SFA) is associated with an increased risk of atherosclerosis and other CVD. By contrast, replacement of SFA with monounsaturated fatty acids (MUFA) and omega-3 long-chain polyunsaturated fatty acids (ω-3 PUFA) has been reported to be inversely associated with risk of atherosclerosis. This is partly due to the ability of MUFA (and PUFA) in modulating low-density lipoprotein (LDL) and triglyceride-rich lipoprotein (TRL) lipid composition and oxidation status, and thereby the functionality of such lipoproteins. While most of the nutritional studies have focused on elucidating the mechanisms by which dietary fats affect LDL and TRL, little or nothing is known about the regulatory effect of MUFA and PUFA on structure and functional remodelling of high-density lipoproteins (HDL). There is clear evidence of an inverse association between plasma levels of HDL and the formation of atherosclerotic plaques. However, recent studies have suggested that HDL may not be as beneficial as thought at least in patients with established cardiometabolic disorders. In those patients, the HDL behaves as pro-inflammatory lipoproteins. Until now, few studies have addressed this "dark side" of HDL and has never been evaluated the role of dietary fatty acids on HDL plasticity (i.e. phenotype and functionality). A better understanding of this duality between anti-inflammatory and pro-inflammatory HDL would be relevant to prevent HDL-related atherogenic dyslipidemias and to provide personalized dietary advices for a successful management of atherogenic lipid profiles. This step of proof-of-principle will determine the instrumental role of major fatty acids present on a diet (SFA, MUFA and MUFA plus ω-3 PUFA) in promoting or reversing the phenotype of pro-inflammatory HDL. We expect to offer a novel insight on HDL and its relationship with dietary fatty acids through the following objectives: 1) To analyse acute changes in the lipidome, proteome and functional properties of HDL in humans (healthy volunteers and patients with metabolic syndrome) upon a challenge of a meal rich in SFA, MUFA or MUFA plus ω-3 PUFA; and 2) To analyse the influence of diets rich in SFA, MUFA and MUFA plus ω-3 PUFA on HDL plasticity in a preclinical animal model of diet-induced metabolic syndrome and that develops atherosclerosis.
The goal of this clinical trial is to test ketone bodies in healthy elderly and young individuals. The main question it aims to answer are: • Do ketone bodies improve skeletal muscle function? Participants will ingest a ketone monoester and skeletal muscle function will then be evaluated by: - Special magnetic imaging techniques - Intravenous infusion of tracer-marked nutrients - Performance tests on a ergometer bike and in a dynamometer Researchers will compare the outcomes between within the young and elderly groups and between the young and the elderly group to investigate if age has an effect on the outcomes.
This study is aimed at evaluating the hypoglycemic effects of a dietary supplement that associates the properties of two inositols (myo-inositol and D-chiro-inositol) in the ratio 40:1 to Gymnema sylvestre, alpha-lactalbumin and zinc.
We hypothesize that the combination of a nutritional education intervention with a HIIT-based physical exercise program improve muscle metabolism through positive modifications of gut microbiota in people with T2DM, leading to better glycaemia/insulinaemia levels, reduction of body fat mass and improving quality of life. The project is a randomized controlled clinical trial in 120 participants with T2DM and obesity, which aims to determine the efficacy of a nutritional education program and the role of physical exercise type on health related variables. The participants will be of both sexes with age between 40 and 55 years, belonging to the Province of Cádiz. The design has two 12-week interventions; the main factor has 2 levels: participants who receive the nutritional education (EDU) and controls (CG); the second factor has 3 levels: high-intensity interval training (HIIT), moderate intensity continuous training (MICT), and controls (INACT). Therefore, participants will be randomized into 6 groups (n=20), adjusted by gender (≈50% in each group): EDU+HIIT, EDU+MICT, EDU+INACT, CG+HIIT, CG+MICT, CG+INACT. The outcome variables, which will be measured before and after the intervention, will include: dietary intake assessment, physical activity assessment, quality of life, faecal samples, blood samples, blood pressure, appetite assessment, muscle biopsy samples, body composition and fluids, basal metabolism, maximal fat oxidation test and cardiorespiratory fitness.
Recent EMA and FDA approvals have made immune checkpoint inhibitors (ICI) a standard of care in cancer treatment. ICI, used alone or as a combination are now the backbone of renal cell and lung carcinoma treatment. However, a significant proportion of patients does not respond to ICI. Thus the identification of predictive response factor is a major issue. While factors associated with the tumour and its micro environment have been widely studied, factors associated with the patient such as metabolism could also affect the response to ICI and remain poorly studied. The hypothesis of the investigators is that dysmetabolims, via the induction of a chronic inflammatory state could induce a defect of lymphocyte production and activation as well as a modification of the immunogenicity of tumor cells and immune cells infiltration. The consequences could be a decrease in ICI response rate as well as an increase in immune related adverse events (irAEs). To test this hypothesis, the investigators propose a prospective bi-centric exploratory study including 60 patients treated with ICI for advanced lung or renal cell carcinoma. The data collected will be : - Clinical (calorimetry, impedancemetry, survey of eating habits, tumour characteristics, epidemiological data), - Biologics (baseline and 3-months plasma bio banking for standard biology, inflammation markers TNF- α, IL1-6-8-11-17, TGF-ß, TWEAK, complement study C3, C4, C4d, CH50, C1q, CD46) Primary objective is to assess the response to ICI depending on metabolic status. Secondary objectives are to study the relationships between metabolism / cytokines profile/ complement profile and ICI response. The investigators seek to generate hypotheses and to obtain exploratory data before submission of a Hospital Clinical Research Program whose objective will be to evaluate the impact of dysmetabolism on overall survival and to characterize immune and anatomopathological profiles (using DNA microarrays and flow cytometry techinques) of patients treated with ICI for renal cell or lung carcinoma.
Investigation of futile cycles in white adipose tissue under cold conditions for thermogenesis using two substitutes for glucose metabolism (18F-FDG and 13C-Glucose).
Assessment of metabolic alterations in adult Fontan patients with a dominant left ventricle with the help of serum examinations (Metabolomics). The aim is to find a tool for the completion of the (semi-)invasive monitoring of Fontan hemodynamics.