View clinical trials related to Metabolic Syndrome X.
Filter by:Many features of the metabolic syndrome are associated with insulin resistance. And, metabolic syndrome and insulin resistance are related to visceral obesity. Therefore, the investigators hypothesized that visceral fat removal (omentectomy) can make favorable results for the insulin resistance and metabolic syndrome. As the omentectomy is optional procedure during a surgery for early gastric cancer, the investigators will divide patients randomly into two groups, total omentectomy group and omentum preserving group.
The purpose of this study is to determine whether meal replacement, SlimWell ®, is effective in the treatment of obesity patients with metabolic syndrome.
The purpose of this study is to determine whether an increase in lipid bodies in leukocytes will lead to an increase in eicosanoid production. The 2nd purpose is to determine if there is a significant correlation between lipid body formation and enhanced generation of both Lipoxygenase (LO) and COX derived eicosanoids. The 3rd purpose is, if lipid bodies are involved in arachidonic acid (AA) metabolism, then AA present in these lipid rich structure must be released by phospholipases and the free Arachidonic Acid (AA) must have access to the eicosanoid forming enzyme. The fourth objective is to determine the compartmentalisation of cPLA2 and MAP kinases including ERK1, ERK2, p85 and p38 are involved in AA liberation within lipid bodies.
The objective of this study is to evaluate the effect of the administration of 25 g of chia per day, for 90 days on the biochemical components of the metabolic syndrome in subjects with this condition
Besides maternal hyperglycemia, a strong link between maternal pregravid weight/maternal triglyceride(Tg) levels and fetal growth/childhood obesity/metabolic syndrome in offspring has been demonstrated in largely Caucasian populations. This study aims to explore the link between maternal hypertriglyceridemia and offspring health in Asians.
Diabetes( mainly type II diabetes )lead to the central nervous system (CNS) function impairment, especially the mild cognitive impairment that increased the risk of progression to dementia.The primary objectives are defined according to a hierarchical design: i) to tailor and apply multi-parametric, functional MRI techniques to identify cerebral abnormalities (cerebral biomarkers) in type 2 diabetes mellitus and prodromal diabetes mellitus ; ii) to assess whether these cerebral biomarkers are associated with cognitive decrements;iii) to follow up with the putative prediabetic condition patients to verify whether they can transform into diabetes.
The purpose of this study is to determine the change in kidney function and blood pressure after gastric bypass versus conventional medical therapy in morbid obesity. The study mainly focus on glomerular filtration rate(GFR) with known relation to the renal function and 24 hours ambulatory blood pressure monitoring after intervention of gastric bypass or medical treatment.
The energy burning capacity of brown adipose tissue makes it an attractive target for anti-obesity therapies. Sympathetic nervous system (SNS) is the classical regulator of brown adipose tissue; however, recent findings show a pool of novel brown adipose tissue activators that sidestep the need for stimulating the SNS, including cardiac natriuretic peptides. Of interest is that both SNS and non-SNS brown adipose tissue activators are sensitive to physical exercise, which opens new horizons and opportunities to study the potential effect of exercise-based therapeutic interventions. Moreover, a new protein released by exercise-stimulated skeletal muscle, irisin, seems to play a key role in the browning program of white adipose tissue. Most of the available evidence comes from animal studies, which is sometimes difficult to infer to human physiology. The overall objective of the ACTIBATE randomized controlled trial is to study the effect of long-term exercise training (6 months) on brown adipose tissue activity and quantity (primary outcomes) in young overweight and obese adults. The clinical significance of activating and recruiting brown adipose tissue on resting metabolic rate and cardiometabolic profile in humans will be determined. The investigators will also study at the molecular level the benefits of exercise on the regulation pathways in two different tissues: white adipose tissue and skeletal muscle, as well as identifying possible cross-talk between the exercising muscle and heart, and fat. Information from exercise-induced signaling on brown adipose tissue, white adipose tissue and skeletal muscle will help on identifying potential molecular therapeutic candidates.
Nerve growth factor (NGF-R) receptors are between the detrusor muscle fibers and can cause afferent signals. Metabolic syndrome and obesity have been advocated to be risk factors for the development of overactive bladder.
The purpose of this study is going to determine the odds ratio of metabolic syndrome (MS), the habit of areca nut chewing, antioxidant, and inflammatory status in oral and esophageal patients. The current study was designed as a case-control study. Patients proved to be oral and esophageal cancer and had the habit of areca nut chewing are defined as case group. Patients proved to be oral and esophageal cancer and did not have the habit of areca nut chewing are defined as control group. The participants' age, blood pressures, and smoking habits will be recorded. Body weight, height, waist, and hip circumferences will be measured. Fasting venous blood samples will be obtained to determine hematological parameters [i.e., serum creatinine, total cholesterol, triacylglycerol, low density lipoprotein-cholesterol, high density lipoprotein-cholesterol, malondialdehyde, superoxide dismutase, glutathione peroxidase, catalase, and inflammatory markers (C-reactive protein, tumor necrosis factor-alpha, and interleukin-6)]. Logistic regression analyses are going to perform to examine the relationship between areca nut chewing and MS in this population. If we can make sure the relationship between areca nut chewing and MS, the clinicians and nutritionists can teach people to quit areca nut chewing in order to avoid the possibility of developing metabolic syndrome and cardiovascular disease.