7 Clinical Trials for Various Conditions
This study will investigate the safety and efficacy of the investigational use of the HydraSolve T2D™ System in improving blood glucose control and insulin resistance in patients with obesity (Class 1, BMI 30-39.9 kg/m2) and type 2 diabetes who have not achieved targeted levels of blood glucose control using oral diabetes medications. The previously FDA-cleared (for liposuction and fat transfer) HydraSolve T2D™ System will be used to perform a novel, minimally invasive laparoscopic and mini-laparotomy procedure to selectively remove excess intra-abdominal fat from the mesentery (Mesenteric Visceral Lipectomy (MVL)), while not affecting surrounding tissues. The study will include several weeks of screening for eligibility before the intervention, and 12-months of follow-up post-surgery.
The main aim of this study is to compare 2 different measurements of visceral fat that can be easily used in clinical practice (waist circumference versus bioelectric impedance) in relation to known risk factors of coronary artery disease in a large cohort of patients with type 2 diabetes and with a BMI range between 20-45 kg/m2
Intermittent energy restriction (IER) may have important advantages over daily energy restriction (DER) in producing sustained weight loss and reducing cancer risk. IER is already being promoted with limited evidence, thus, additional evidence is urgently needed from rigorously conducted clinical trials. IER has been proposed to invoke a greater metabolic shift to fat metabolism than DER and preferentially reduce central obesity. The Investigators adapted the IER and the Mediterranean diet (MED) approach which have been recommended as a healthy weight-loss diet in the management of non-alcoholic fatty liver disease, for an ethnically diverse population. The effectiveness was compared to an active comparator (DASH diet) in reducing overall and visceral adiposity in a randomized trial among 60 middle-aged adults with visceral obesity. This 12-week pilot demonstrated the feasibility and safety of IER and the culturally-adapted MED \[NCT03639350\]. The six-month randomized trial will demonstrate the superiority of IER over DER in reducing fat and total fat mass, and in improving cancer-related biomarkers and gut microbiome functions. This longer trial, to confirm safety and superiority of IER over DER in reducing VAT and liver fat will expand our understanding of adherence to IER and its effect on the gut microbiome as a possible mediator of systemic inflammation. The Investigators will conduct a 24-week randomized trial of IER+MED vs. MED/DER among 260 middle-aged adults of East-Asian, Native Hawaiian and other Pacific Islanders or White ethnicity with high VAT. The primary research question is whether a diet plan combining IER and the MED dietary pattern will be superior to MED/DER in reducing abdominal MRI-measured visceral and liver fat and dual-energy X-ray absorptiometry (DXA) measured total adiposity. The Healthy Diet and Lifestyle Study II (HDLS2) will recruit 312 men and women from the general population with VAT at or above the population-median (men: ≥90 cm2; women ≥80 cm2) and randomize them to the IER+MED or MED/DER diet (156 per group). The IER+MED group will follow IER for two consecutive days (70% energy restriction) and total energy MED diet for the other five days of the week, reaching an overall 20% energy restriction. The MED/DER group will be prescribed a 20% daily energy restriction. With an expected attrition rate of \~16% (10% in Pilot), the investigators expect 130 participants per group to complete the study.
The Habitual Diet and Avocado Trial will evaluate the effects of providing one avocado per day for recommended consumption over a 6 month period in a cohort of approximately 1000 free-living participants with increased waist circumference in comparison with a control group that will maintain their habitual diets. Participants will be recruited and screened at 4 clinics in 4 locations: Pennsylvania State University; Loma Linda University; UCLA, and Tufts University (250 per site).
Childhood obesity is a major public health issue, and the identification of children who are at increased risk of health problems due to their obesity is a priority for modern health care. Abdominal fat is considered to be the most harmful in the body, and the development of reliable landmarks and procedures for the assessment of intra-abdominal visceral adipose tissue and total body fat in children will have a major impact on 1) the early identification of children at elevated health risk, 2) the proper prioritization of health care resources, and 3) the standardization of obesity surveillance procedures within and between countries.
The purpose of this research study is to determine whether increased intake of dietary fiber during a 12-week, low-calorie weight loss intervention affects abdominal fat change and improves cardiovascular risk factors in African-American women more than a standard weight loss intervention. The investigators are testing two main hypothesis: Hypothesis 1: Women in the high dietary fiber intervention group will lose significantly more abdominal fat around their organs than women in the standard fiber group. Hypothesis 2: Women in the high dietary fiber intervention group will have lower blood pressure, fasting glucose, fasting lipids and inflammatory factors at 3-months compared to women in the control group.
Obesity is one of the leading causes of cardiovascular-related diseases, including diabetes and heart disease. Obesity, and more specifically abdominal obesity, may cause decreased growth hormone (GH) levels. It is believed that GH deficiency may contribute to increased cardiovascular risk by affecting insulin resistance, inflammatory markers, and blood cholesterol levels. This study will determine the occurrence of GH deficiency in abdominal obesity and whether GH deficiency is associated with increased cardiovascular risk beyond traditional risk factors.