View clinical trials related to Metabolically Healthy Obesity.
Filter by:The goals of this research study are to: 1) understand why some people with obesity are protected from developing conditions such as type 2 diabetes and cardiovascular disease while others are more likely to develop obesity-related conditions; 2) assess the effect of small extracellular vesicles (sEVs also called exosomes), obtained from human participants, on metabolic function in cultured cells and in mice.
There are two types of adipose tissue in humans, white and brown adipose tissue. While the main task of white adipose tissue is energy storage, the main task of brown adipose tissue is energy expenditure. It was previously thought that only infants have brown adipose tissue, however today it is known that metabolically active brown adipose tissue exists in adult humans as well. Brown adipose tissue contributes to metabolic health through both energy expenditure and the cytokines they secrete. Although obesity is frequently associated with many metabolic dysfunctions and cardiometabolic diseases such as insulin resistance, prediabetes, atherogenic dyslipidemia, metabolic syndrome, some obese individuals have been defined as metabolically healthy obese. The mechanisms underlying the formation of the metabolic healthy obese phenotype are not well understood. In experimental animal studies, it has been suggested that the molecular phenotype of adipose tissue is an important factor affecting metabolic health in obese individuals. One of the most important factors affecting the molecular phenotype of adipose tissue is the browning potential of adipose tissue. Based on this hypothesis, in this study it is aimed to investigate whether the browning of white adipose tissue has an effect on determining the metabolic phenotype of metabolically healthy and unhealthy obese individuals with the same amount of adipose tissue. It is known that irisin, FGF21 and NRG4 are hormones that have the ability to brown the white adipose tissue. In our study, it was aimed to investigate whether there is a difference in serum FGF21, irisin and Neuregulin4 (NRG4) levels, which have brown adipose tissue browning potential, in metabolically healthy and unhealthy obese. In this way, it will be found out whether serum FGF21, irisin and NRG4 hormones, which have a browning effect on white adipose tissue, have an effect on the metabolic health of obese individuals and whether these hormones can be a treatment target. In this project, participants who have BMI ≥30 kg/m2 and no criteria other than metabolic syndrome criteria, except increased waist circumference (blood pressure ≥130/85 mmHg, fasting blood glucose ≥100 mg/dl, triglyceride ≥150 mg/dl, HDL <40mg/dl in men, <50 mg/dl in women) and those without prediabetes will be defined as metabolically healthy obese, on the other hand other obese individuals will be defined as metabolic unhealthy. 10 ml blood samples will be taken from at least 60 metabolically healthy and 60 metabolically unhealthy participants. Serum FGF21, irisin and NRG4 levels will be measured and their levels in metabolically healthy and unhealthy obese individuals will be compared.
Obesity-related cardiometabolic diseases are now a leading cause of death worldwide. These diseases result from a dysfunctional adipose tissue (AT) that induces inflammation, insulin resistance and altered endocrine function. However, not all obese people develop metabolic complications, which has given rise to the concept of "metabolically healthy obesity" (MHO). Recent evidence suggests that intermittent fasting methods, in particular time-restricted eating (TRE) may be effective in improving cardiometabolic health, independently of weight loss, and this could be particularly effective in MUO subjects. The investigators hypothesize that in young male adults TRE is a more effective/beneficial approach in MUO than in MHO due to the weight loss-independent improvement in their inflammatory and metabolic derangements. To this aim, a 16-week 8h TRE intervention study will be performed in MHO and MUO subjects, assessing anthropometric, endocrine, and other outcomes.
This is a prospective, clinical, multicentre study aimed to collect biological samples and study microbiota from subjects with morbid obesity, metabolically healthy obesity and from healthy volunteers. Microbiota is a complex consortium of microorganisms, located at the mucosal level (in particular intestinal, oral and vaginal) having a key role in human health and in the onset of several diseases. Microbiota alterations have been found in several diseases (gastrointestinal, metabolic, renal, oncological, gynaecological) The study will allow to: - Provide biological samples (faeces, saliva, blood, urine) from healthy volunteers and patients to the first Italian microbiota biobank; - Study microorganisms using different in vitro and in vivo techniques; - Study the link between the microbiota and the disease. This study is part of the BIOMIS project (Project Code: ARS01_01220), presented as part of the "Avviso per la presentazione di progetti di ricerca industriale e sviluppo sperimentale nelle 12 aree di specializzazione individuate dal PNR 2015-2020" and admitted to funding under the National Operational Program "Ricerca e Innovazione" 2014-2020 by directorial decree of MIUR - Department for Higher Education and Research - n. 2298 of 12 September 2018. BIOMIS includes several clinical studies that enrol patients with different pathologies to collect and store biological samples and study microbiota.