View clinical trials related to Overweight.
Filter by:Preeclampsia causes devastating maternal and neonatal morbidity and mortality with a high recurrence risk and a rapid, occult progression to cardiovascular disease after delivery. There is a critical need for effective interventions to reduce these risks. This is a pilot randomized controlled trial of a novel postpartum lifestyle intervention compared to women who take home blood pressure measurements and women with usual care who are overweight and obese in the first year after preeclampsia. The investigators hypothesize that the intervention will lead to improved weight loss and blood pressure in the first year postpartum, which has broad implications for future pregnancy and long-term cardiovascular health.
The present study aimed to determine the effect of different interventions on lean body mass maintenance under weight loss conditions in overweight and obese premenopausal women. Three study groups were implemented: (1) Protein supplementation (only) group (2) Protein supplementation and walking intervention (3) Protein supplementation, walking and WB-EMS-application. All protocols were applied for 16 week of intervention. A energy deficit of 500 kcal/d was intended however while group (1) focus consistently on energy restriction (500 kcal/d), in group (2) and (3) a combined physical activity (i.e. walking with a volume representing 250 kcal/d) and energy restriction (250 kcal/d) protocol was applied. Total protein uptake including protein supplementation was calculated to average around 1.2 g/kg body mass per day in groups (1) and 1.5 g/kg body mass/d in group (2) and (3). WB-EMS was applied 1.5x 20 min/week (i.e. each Tuesday and every second Thursday). Primary study endpoint was LBM as determined by Dual Energy x-Ray Absorptiometry.
This is a Phase 2a, randomized, blinded, placebo-controlled study in up to 20 overweight or obese participants with type 2 diabetes mellitus. The participants will participate in the study for approximately 18 weeks, including screening, run-in and treatment periods and a safety follow-up.
It is estimated that 15% of adults aged 60-70 years, and up to 50% of adults aged 80 years and older are affected by sarcopenia—the age related loss of muscle mass and function. A disruption of the homeostatic balance between periods of muscle protein breakdown (predominant during fasting) and muscle protein synthesis (predominant following nutrient ingestion) can result in the loss of muscle mass over time. In particular, research suggests that an inability of muscle to fully respond to the anabolic influence of nutrient intake may contribute significantly to age-related muscle loss. This anabolic resistance is likely influenced by increased age-related inflammation. There is evidence in cell line and animal models that increased levels of the inflammatory cytokine, tumor necrosis factor-α (TNFα) impairs the molecular pathways that initiate muscle protein synthesis (i.e. mammalian target of rapamycin, mTOR signaling), and can accelerate muscle protein breakdown. Obesity, and sedentary lifestyle have been linked to increased TNFα expression, and thus may partially explain impaired muscle protein balance in older adults. The objectives of this clinical trial are to 1) determine if lifestyle modification via weight loss and aerobic exercise can reduce skeletal muscle inflammation and subsequently improve nutrient-stimulated muscle protein synthesis in previously sedentary, obese older adults; and 2) expose undergraduate Kinesiology and Nutrition majors to meritorious research. The investigators have recently published data with undergraduate researchers showing that body composition is associated with elevated skeletal muscle expression of TNFα converting enzyme (TACE). One of the primary actions of TACE is to cleave membrane bound TNFα (mTNFα) to soluble TNFα (sTNFα)—a more mature and bioactive form of TNFα. Both TACE and sTNFα are known to be elevated in a number of clinical conditions, including heart disease, cancer, arthritis, and diabetes. Based on these data, the investigators feel that TACE may represent an important and potentially modifiable (via weight loss and aerobic conditioning) regulator of skeletal muscle inflammation in humans. There are currently no data on the associations among skeletal muscle expression of TACE, TNFα, and muscle protein balance. Thus, the focus of this study is to determine if 5-10% diet-induced weight loss and 6-months (3 days per week) of aerobic exercise training can influence: 1) TACE and TNFα expression in skeletal muscle; and 2) improve molecular indices of muscle protein breakdown and nutrient-stimulated muscle protein synthesis (mTOR signaling) in sedentary, obese older adults. Specifically, 60 sedentary, obese older adults will be randomized to one of the following groups: 1) control group (CON), 2) a diet-induced weight loss group (DIET), 3) an aerobic exercise training group (EX), or 4) a diet-induced weight loss + aerobic exercise training group (DIET + EX). The results of this study will advance the understanding of the connections among skeletal muscle inflammation and muscle protein balance in older adults, and validate TACE as a potentially modifiable target for the prevention and treatment of sarcopenia and other age-related inflammatory diseases, which will contribute to the development of practice-based guidelines for healthcare practitioners.
The purpose of this study is to evaluate the change in disease prevalence over time in impoverished urban communities in Lima, Peru.
Pilot study to evaluate the use of the Personal Activity Intelligence (PAI) score in a clinical setting.
Behavioral obesity treatment (BOT) produces clinically significant weight loss and health benefits for many individuals with overweight/obesity and cardiovascular disease (CVD). Yet, about half of patients fall short of expected outcomes and most experience gradual weight regain, thus negating the benefits over time. Lapses (i.e., self-reported eating instances that deviate from the BOT prescribed diet) could explain poor outcomes, but the behavior is understudied because it is difficult to assess in-lab and via self-report. The investigators therefore propose to study lapses using a multimethod approach with the following tools: ecological momentary assessment (EMA; repeated sampling method via mobile device), a wrist-worn device that automatically detects eating behavior and various eating characteristics (frequency, rate, and duration of eating episodes), and 24-hour dietary recalls. The investigators will recruit participants (n=40) with overweight/obesity and one additional CVD risk factor to enroll in a 12-week BOT program and an additional 12-week period of weight loss maintenance. Participants will complete a biweekly 7-day EMA protocol to self-report on eating behavior, including the occurrence of dietary lapse. Participants will continuously wear the wrist-worn ActiGraph Link to characterize eating behavior. Lastly, participants will complete 24-hour dietary recalls via structured interview (split between days with and without lapses) at 6-week intervals to measure the composition of all food and beverages consumed. This study aims to 1) identifying characteristics of lapse behavior by measuring passively-sensed timing, duration, frequency, and rate of eating amongst known lapse episodes, 2) test the association between dietary lapse frequency and weight change, and 3) estimate nutrition composition of dietary lapses. The study approach is consistent with priorities of NHLBI to optimize clinical research and diagnostic strategies to improve CVD and related risk factors.
This project will evaluate the success of the PI's lifestyle medicine practice.
The study represents the first effort to prospectively investigate the Melcap's bio-electrical ingestible ODC system in human. The study goal is to evaluate the safety and feasibility of GES treatment in stomach and in the small and large bowel during and following the ingestion of the bio-electrical capsule under tight and controlled conditions.
Knee osteoarthritis (OA) is predicted to become the fourth leading cause of disability worldwide by 2020. and is estimated to affect more than 40 million people in Europe and 4 million people in Italy. OA has multifactorial etiology and obesity is one of the most important risk factor for knee Regarding therapy of OA in 2014, the European Society for Clinical and Economic Aspects of Osteoporosis and Osteoarthritis (ESCEO) published a treatment algorithm for the management of knee OA. In Step 1 of the treatment, it is recommended to initiate therapy with chronic symptomatic slow-acting drugs for osteoarthritis (SYSADOAs). Among SYSADOAs, the evidence is greatest for the effect of chondroitin sulfate (CS). Sixty overweight subjects with knee osteoarthritis (OA) were recruited and randomly allocated to a group of treatment with 600 mg/d of non-animal Chondroitin sulphate (CS) or to a placebo group. These measurements were considered: Tegner Lysholm Knee Scoring (TLKS), Western Ontario and McMaster Universities Arthritis (WOMAC) index and Visual Analogue Scale (VAS) for pain were analyzed at time 0 and at 4 and 12 weeks. Health-related quality of life by ShortForm36, inflammation by C-Reactive Protein (CRP) and Erythrocyte Sedimentation Rate (ESR) were also evaluated, together with a body composition assessment performed by DXA.