View clinical trials related to Overweight.
Filter by:Once written consent is obtained, the participant will be provided with an accelerometer to be worn for 7 days to assess current physical activity levels. Subjects will be provided with a standardized diet (55/15/30% CHO/PRO/FAT) prior to collection of pre-intervention data of insulin sensitivity. Individuals will then participate in an 8-week electrical stimulation intervention (30min/day, 3x/week) and randomized into placebo/control, NMES, resistance training combined with NMES (RT +NMES), or resistance training (RT) group (n=15 per group), followed by collection of post-intervention data. The control group will receive electrical stimulation up to sensory level, the NMES group will receive stimulation up to tolerable intensity to induce visible muscle contraction, the RT+ NMES will receive stimulation up to tolerable intensity during resistance training, and the RT group will only receive exercise training. Pre-and post-intervention data includes measurements for body composition, resting metabolic rate, VO2max, insulin sensitivity, and comprehensive blood work.
In the present study the investigators will investigate the effect of consuming lipids inside alginate gel once a day during 4 days on food intake and satiety feelings in healthy people with overweight. All participants will receive a test yogurt that includes the oil-filled Ca-alginate gels and a control yogurt where the oil is not inside the gels.
Patients with obese late onset (after childhood) asthma can have lower FeNO levels, yet be highly symptomatic and poorly responsive to inhaled steroids. This is a common asthma phenotype, particularly among females. This reduction of NO occurs through increased arginase activity and uncoupling of NO synthase (NOS), by accumulation of asymmetric di-methyl arginine (ADMA), which further lowers the L-arginine/ADMA ratio, preferentially promoting reactive oxygen species (ROS) formation and inflammation at the expense of NO. Indeed, in patients with obese late onset asthma, lower L-arginine/ADMA plasma ratios are associated with reduced FeNO, increased bronchial hyperreactivity, and greater asthma morbidity. In our pilot studies, the administration of L-citrulline, as an L-arginine donor, to patients with obese late onset asthma increased the L-arginine/ADMA ratio, FeNO levels, and improved asthma control and lung function. Therefore, the objectives of the protocol are to: a) determine the efficacy of L-citrulline, as an add-on treatment to improve the asthma control and lung function in obese late onset asthmatics; b) leverage the use of asthmatic and control cells to further understand obesity-related changes in epithelial airway NO metabolism, and how these changes relate to bronchoconstriction and lung function, c) determine airway epithelial changes in mitochondrial function and bioenergetics in obese late onset asthmatics and how these are modified by L-citrulline. To do this, 54 obese late onset asthmatics with suboptimal control will be blindly randomized, in a cross over study, comparing 15g/day of L-citrulline vs. placebo, in two 8-week treatment periods with a 6-week washout in between. The co-primary study outcomes are asthma control (ACQ, ACT) and FeNO, and secondary endpoints plasma L-arginine/ADMA, FEV1 and PC20 methacholine. Parallel to this study, a small study of 10 healthy obese controls will receive open label L-citrulline for 7 weeks to establish comparative reference values for the study aims. During the initial treatment phase, 50% of study participants will be randomly allocated to undergo pre and post L-citrulline treatment bronchoscopy to obtain BAL and airway epithelial cells. The research group proposing this study is highly experience in asthma clinical trials, implementation of cross over design studies, and in the use of research bronchoscopies.
This trial studies how well nutrition and exercise interventions work in reducing androgen deprivation therapy-induced obese frailty in prostate cancer survivors. Individualized nutrition and exercise advice for prostate cancer patients on androgen deprivation therapy may help to reduce obese frailty and change the levels of myokines in blood.
This study is designed to evaluate whether epigenetic markers in overweight men with type 1 diabetes (T1D) or type 2 diabetes (T2D) can be improved with a 3 month lifestyle intervention or program focused in glycemic intervention.
The epidemics of obesity, MeTSy, T2DM and CVD are increasing worldwide. Non-alcoholic fatty liver disease (NAFLD) is becoming recognized as a condition possibly involved in the pathogenesis of these diseases. The prevailing hypothesis for NAFLD pathogenesis is the 'two-hit' model, with insulin resistance and hyperinsulinemia playing essential roles, which have a plethora of effects on hepatic lipid metabolism and can lead to accumulation of triglycerides in hepatocytes. Accepted treatment for NAFLD is lifestyle modifications. Sex hormones might be relevant in T2DM development and treatment. Low testosterone (T) has deteriorating effects on glucose levels, and aggravates in obesity as aromatization of T is enhanced. T deficiency is related to increases of visceral fat accumulation and associated with development of NAFLD. T replacement might be a successful way in hypogonadism to treat obesity and counteract progression of MEtSy,T2DM or CVD driven by visceral fat accumulation or NAFLD. Primary Objective To investigate the effects on hepatic lipid content reduction of a therapy with Testosterone undecanoate 1000mg compared to placebo given for 52 weeks in patients with type 2 diabetes mellitus and hypogonadism.
The current study aims to investigate the effects of a chosen technology-based exercise or healthy eating intervention that combines individual and group-based support, on weight loss and other health-related parameters in postpartum women with overweight or obesity. All participants will be asked to engage in a 20-week programme consisting of a 4 week tracked free living period followed by a 16-week intervention. The investigators hypothesise that reductions in BMI (body mass index) and improvements in health-related parameters will be observed post-intervention.
This is an ongoing, prospective cohort study of children and young adults who are evaluated in the Reversing the Negative Effects of Weight on the Heart (ReNEW) Clinic at Johns Hopkins University. Demographic and clinical data of patients who agree to participate are obtained via chart review and entered into a longitudinal clinic registry.
We evaluated the effects of Time-Restricted Feeding (TRF) regimen on Impaired Glucose Regulation (IGR) in comparison with overweight/obese patients receiving standard of care over 12 months.
Obesity is associated with a variety of comorbidities, amongst which non-alcoholic fatty liver disease (NAFLD). A recent meta-analysis has shown that the prevalence of NAFLD in obese pediatric populations is around 35%, compared to approximately 8% in general pediatric populations, making it a very important health threat in these populations. The golden standard for diagnosis of NAFLD is liver biopsy. However, since liver biopsy is associated with a certain risk of morbidity and mortality, this method is inappropriate for screening large populations at-risk for developing NAFLD. Magnetic resonance spectroscopy has demonstrated excellent correlation with liver biopsy and the is the most accuratete non-invasive method to measure liver fat content in children. However, MRS is expensive and not available in all centres. A novel ultrasonographic measurement to quantitatively assess liver steatosis is the hepatorenal index (HRI). Previous studies have shown high sensitivity and specificity of the HRI, as compared to MRS and liver biopsy. However, this measurement has never been validated in children. In this study, the HRI will be compared to MRS in children with obesity, to validate the HRI and to determine cut-off points.