View clinical trials related to Metabolic Syndrome.
Filter by:The trial will be a four-arm, parallel group, prospective, randomized, double-blind, controlled design that will include 200 participants and will last 20 weeks. The probiotic preparation will contain Lactobacillus helveticus Rosell®-52, Bifidobacterium longum Rosell®-175. We will assess the level of depression, anxiety and stress, quality of life, blood pressure, body mass index and waist circumference, white blood cells count, serum levels of C-reactive protein, HDL cholesterol, triglicerides, fasting glucose, faecal microbiota composition and the level of some faecal microbiota metabolites, as well as inflammation markers and oxidative stress parameters in serum. The trial may establish a safe and easy-to-use treatment option as an adjunct in a subpopulation of depressive patients only partially responsive to pharmacologic treatment.
Autophagy is considered one of the key molecular mechanisms for the broad preventive and therapeutic effects of periodic fasting. While it is generally known that fasting induces autophagy, there are no human studies that focus on the size and temporal kinetics of autophagy and its association with fasting specific signaling pathways. The kinetics of autophagy in patients with chronic diseases will now be compared with the kinetics of autophagy in healthy subjects, who both fast according to the same scheme; and further changes in metabolic and inflammatory parameters will be investigated.
The EPICURO study aims to demonstrate the beneficial effects of a 6-month dietary supplementation with an improved bioavailable turmeric (MERIVA®) on inflammatory, oxidative and metabolic parameters together with cognitive performance, potentially resulting in the reduction of the risk of cognitive decline in subjects, male and female, with Metabolic Syndrome. The results obtained will provide novel insights on MERIVA® for improving the prevention of age-related cognitive decline and Alzheimer's disease.
SiMSscore was used as a simple and accurate method for Quantifying Metabolic Syndrome in adults , Developed siMS score was calculated using formula: siMS score = 2*Waist/Height + Gly/5.6 + Tg/1.7 + TAsystolic/130-HDL/1.02 or 1.28 (for male or female subjects, respectively),However studies on siMSscor in pediatric was done . PsiMSscore(pediatric sims score) calculated using formula: (2xWaist/Height) + (Glucose(mmol/l)/5.6) + (triglycerides(mmol/l)/1.7) + (Systolic BP/130)-(HDL(mmol/l)/1.02(Soldatovic etal;2016).
The growing prevalence of metabolic syndrome (MetS) in the worldwide is becoming a serious health problem and economic burden. MetS has become a crucial risk factor for the development of type 2 diabetes mellitus (T2DM) and cardiovascular diseases (CVD). The rising rates of CVD and diabetes, which are the two leading causes of death. To prevent the progression of MetS to diabetes and CVD, regular physical activity is required. Elliptical trainer device is a relatively new modality of exercise and is advertised to be superior to a treadmill because of the low joint impact and the more reasonable costs of an elliptical trainer compared to a treadmill. Additional quantitative research is needed to further evaluate the effectiveness of elliptical trainers and the physiological and perceptual responses to the machine.
The Bialystok Bariatric Surgery Study (BBSS) is a prospective observational cohort study of patients undergoing bariatric surgery at the First Clinical Department of General and Endocrine Surgery at the Medical University of Bialystok. The BBSS consists of a battery of baseline tests established one month prior to the surgery and repeated at one, three, six, twelve and twenty four-month follow-up clinical visits.
The NAFLD is the first cause of liver disease worldwide. The severe form of NAFLD, the NASH progresses to cirrhosis and is responsible of liver mortality. The diagnosis of NASH requires liver biopsy that cannot be used for the screening of the disease. The broad prevalence of the disease limits also the generalization of liver biopsy even for diagnosis. There is an urgent need for the use and the validation of liver diagnosis biomarkers for the diagnosis of NASH.
to determine the risk factors for developing obesity in children with exogenous-constitutional obesity and arterial hypertension, according to the theories of early programming of metabolism
Our body fat (adipose tissue) is largely made up of white adipose tissue (WAT) that stores surplus energy as white fat depots. In addition, adult humans have another type of fat similar to the brown fat in babies that burns up fat to generate heat for maintenance of body temperature during cold exposure. Adults have much lesser amounts of such brown adipose tissue (BAT), most of which are located within the sides of the neck and under the skin above the collar bones as well as along the sides of the spine. BAT consists of both classical brown fat identical to that found in babies as well as beige fat (composed of brown-in-white or 'brite' fat cells) found mainly in adults. Both types of BAT burn fat upon activation by various stimuli such as cold or by substances like curcumin found in turmeric ginger rhizome root. This study is carried out to find out the effects of cold stimulation and/or a known BAT-activating nutraceutical among those overweight/obese people suffering from metabolic syndrome.
Adipose, or fat, tissue is a plastic organ that retains the ability to expand and store excess calories during positive energy balance in humans. The capacity of subcutaneous (subQ) adipose tissue to expand and remodel is an important determinant of obesity-related health complications, and impaired expansion of subQ fat tissue is thought to contribute to the risk of diseases such as the Metabolic Syndrome (MetS) and type 2 diabetes mellitus (T2D). The objectives of the study are to evaluate the changes and mechanisms of (subQ) adipose tissue expandability that occur as a result of short-term weight gain and to investigate the effects on cardio-metabolic health outcomes. Findings from this study will provide new insight into the dynamics of adipose expansion and remodeling during changes in energy balance and how this may impact future fat tissue function and metabolic health.