51 Clinical Trials for Various Conditions
The goal of this clinical trial is to learn if a psychological intervention can increase regular physical activity to help prevent weight regain after metabolic bariatric surgery in adults. The main questions it aims to answer are: 1. Does the psychological intervention increase physical activity? 2. Does the psychological intervention prevent weight regain? 3. Does the psychological intervention increase internal motivation for physical activity and acceptance of the discomfort that can come with physical activity? Researchers will compare the psychological intervention to an educational intervention to see if the psychological intervention works to increase physical activity and prevent weight regain after metabolic bariatric surgery. Participants will: * Complete 12 months of either the psychological or educational intervention. This includes attending online workshops with a small group of participants, completing brief homework assignments, and having individual telephone calls with a counselor. * Wear a device to measure physical activity, use an electronic scale to measure body weight, and complete questionnaires at home on five separate occasions over an 18-month period
This study aims to determine the relationship between lipid kinetics changes and blood immunosuppressive cells by metabolic surgery in two patient cohorts.
Despite steady increases in obesity prevalence, the more than 12 million obese U.S. adults with type 2 diabetes (T2DM) and severe obesity encounter a number of barriers to adopting effective surgical and pharmaceutical treatments, including: (a) both patients and primary care clinicians frequently underestimate the effectiveness and potential benefits of obesity treatments; and (b) both patients and clinicians typically lack access to evidence-based estimates of the patient-specific potential benefits and risks of appropriate obesity treatment options. This project addresses these important obstacles to evidence-based obesity care by providing accurate, patient-specific estimates of benefits and risks of various obesity treatment options to inform shared decision making about obesity treatment. In this project the study team will implement a scalable, web-based point-of-care decision-support intervention in primary care that provides patient-specific estimates of obesity treatment benefits and risks in a randomized trial in 40 primary care clinics with 15,810 eligible patients, and assess intervention impact on (i) appropriate active management of obesity in eligible patients, (ii) weight trajectories, and (iii) patient and clinician satisfaction with the decision support intervention.
The goal of this clinical trial is to evaluate the feasibility and acceptability of a 10-wk hybrid Tai Chi (TC) program with in-person classes and online TC videos among 24 physically inactive adults who are seeking metabolic and bariatric surgery (MBS) in a single-arm trial. The aims are: Aim 1: Feasibility: To evaluate whether TC is feasible, defined as a mean attendance rate of ≥70% in-person TC classes attended. Aim 2: Acceptability: To evaluate whether TC is acceptable, defined as a mean rating of ≥4 across 4 acceptability questionnaire items measured on a 5-point Likert scale (e.g., rate "Tai Chi practice is appealing to me" on a scale from 1 \[completely disagree\] to 5 \[completely agree\]). Participants will complete four individual in-person visits where they will complete study assessments and ten weekly group in-person Tai Chi classes where they will practice Tai Chi with up to 5 other study participants. Additionally, they will be asked to practice Tai Chi at home with the aid of instructional online videos and log their practice.
To investigate if laparoscopic Transversus Abdominis Plane (TAP) block using plain bupivacaine is equivalent to using liposomal bupivacaine in patients undergoing metabolic and bariatric surgery. The study will see if the plain bupivacaine group will be equivalent in terms of length of stay, Morphine Milligram Equivalents, Pain scores and patient satisfaction, but cost less.
The purpose of this study is to determine if diet-induced weight loss causes different changes in hormones that control appetite and glucose control than surgery-induced weight loss. The overall research plan is a non-randomized prospective study of 3 different weight loss (WL) interventions and a lean and an obese healthy control group.
The purpose of this study is to determine if the altered nutrient exposure to the GI tract after bariatric surgery reveals a negative incretin effect of ghrelin.
This long-term, nationwide observational data collection repository will obtain patient-reported outcomes from metabolic and bariatric surgery patients. The data will be used in conjunction with clinical outcomes to determine quality, safety, and comparative effectiveness of various metabolic and bariatric procedures.
The purpose and objective of this study is to determine the changes in bone metabolism after bariatric surgery in postmenopausal women. This is a prospective cohort study that will enroll up to 40 postmenopausal female subjects with class II and III obesity from the Duke Center for Metabolic and Weight Loss Surgery. The study team will enroll subjects that are already being scheduled for either sleeve gastrectomy or Roux-en-Y gastric bypass. The osteoclast activity, the osteoblast activity, and the bone mineral density will be measured in all subjects preoperatively and 12 months postoperatively through research specific blood tests and Dual energy x-ray Absorptiometry (DEXA) scans. The primary endpoints are change in osteoclast activity as measured by C-terminal telopeptide of type I collagen and change in bone density as measured by DEXA scan. These are continuous variable and given the small sample size the investigators will use a nonparametric Wilcoxon rank-sum test to compare the difference in one year change in these variables. There is a slight risk of loss of confidentiality. Every effort will be made to protect all PHI. There is also the risk of increased exposure to radiation from the DEXA scans performed twice with each subjects participating in the study.
This is a Phase 3a, randomized, parallel-controlled trial designed to compare the early re-initiation of semaglutide, starting two weeks after sleeve gastrectomy, to standard care (no pharmacotherapy following surgery). The trial will involve 150 youth with severe obesity who have been on semaglutide 2.4 mg weekly for at least 3 months prior to surgery. Participants will be randomized to either (1) semaglutide 2.4 mg weekly or (2) standard care for 24 months. Primary, secondary, and tertiary outcomes will be assessed at multiple time points: 1-month, day of surgery, and 1-, 3-, 6-, 9-, 12-, 18-, and 24-months postoperatively. We hypothesize that early re-initiation of semaglutide will be safe, well-tolerated, and lead to greater improvements in obesity, cardiometabolic risk, and eating behaviors.
The purpose of this study is to better understand the impact of weight-loss surgery on telomere length. Telomeres are a key marker of biological aging of cells. Telomere shortening is a natural process of aging. Several pathologies and lifestyles are associated with premature telomere shortening, such as obesity, diabetes mellitus or sedentary lifestyle. New evidence supports that telomere shortening can be partially reversed by lifestyle changes such as healthy diet, reduced stress, or increased physical activity.
Bariatric surgery is an effective treatment for severe obesity but results in loss of muscle mass. The investigators will test the hypothesis that consumption of an Essential Amino Acid-based nutritional formulation will maintain muscle mass while stimulating fat loss after bariatric surgery.
The goal of this study is to provide a comprehensive evaluation of whole-body and tissue-specific glucose metabolism after consuming a mixed meal in lean people and people with obesity, before and after 20-35% weight loss induced by Roux-en-Y gastric bypass or sleeve gastrectomy surgery.
Research the genetic and biomechanical markers of human adipose tissue on patients with morbid obesity. Additional tissue/fluid collection is also gathered during the time of surgery.
Purpose is to determine the effect of ephedrine and caffeine, on metabolic rate and weight loss after bariatric surgery. Approximately 40% of patients struggle with their weight loss rate, or metabolic rate, after bariatric surgery, and at least 30% previously had or develop a low metabolic rate after surgery. Metabolic rate is the speed at which calories are burned. The fewer the calories eaten and the more calories burned, the more rapidly weight is lost. It is possible that despite a very low calorie intake following bariatric surgery metabolic rate will decrease so much so that weight does not decrease even if intake is reduced to 1000 calories per day. Ephedrine is a medicine used commonly to treat asthma, difficulty breathing, and wheezing. However, 40 years ago it was reported in scientific studies that ephedrine increases weight loss in patients on low calorie diets by increase the amount of calories that are burned. Combining caffeine with ephedrine makes ephedrine work more efficiently (more weight loss over time). Many studies show the effect of ephedrine on weight loss that began in 1974 with patients on food diets. Ephedrine used in various strengths and with a number of different combinations has shown to be effective and safe, especially when directed by a physician. There is only one study where ephedrine has been used in patients after bariatric surgery. In that study, both the patient and medical staff knew they were taking ephedrine (i.e., they were not "blinded"). The patients who were not losing weight or had measured low metabolic rates were treated with ephedrine. The patients taking ephedrine lost more weight after surgery than those not taking ephedrine. While this is a significant finding, the study was not designed to be the best test of the effects of ephedrine. The best test is where neither the patients nor the medical staff know if the patient is taking the active drug (double blind). All patients enrolled into the Research Study will receive capsules that contain either ephedrine and caffeine (the active drug) or identical capsules with no active ingredient (called a "placebo"). Neither group of patients will know which set of capsules they receive. The expected duration of treatment in the Study is 7 months from the day of surgery. This is a single site study. All patients will have their gastric bypass performed through Oregon Weight Loss Surgery at Legacy Good Samaritan Hospital. The investigators expect to study 200 patients with 100 receiving the study drugs (ephedrine and caffeine in a capsule) and 100 receiving placebo (inactive ingredients in an identical capsule) over approximately 6 months.
This study evaluates if measuring resting metabolic rate (the number of calories the body burns at rest) before surgery can help predict successful weight loss after surgery.
What are the benefits of undergoing Roux-en-Y gastric bypass surgery in improving type 2 diabetes outside of weight loss alone?
The purpose of this study is to understand how daily rhythms of behavior affect the expression of genes in fat cells, and how these daily cycles affect the way fat cells respond to insulin (a hormone that controls blood sugar levels) before and after bariatric surgery.
The purpose of this study is learn the effect of gastric bypass surgery and sleeve gastrectomy on glucose metabolism mediated by neural and hormonal factors initiated after eating.
Background: * Bariatric surgery is the most effective way to achieve significant, long-term weight loss. It has also been shown to be an effective therapy for obese individuals with type 2 diabetes: more than 70 percent of patients no longer need medications for diabetes after surgery. This resolution of diabetes is predominately caused by marked weight loss resulting in improved insulin sensitivity. However, the beneficial effects of bariatric surgery on type 2 diabetes cannot be accounted for entirely by weight loss, because many bariatric surgery patients have resolution of diabetes within 1 week following bariatric surgery, even before they lose a clinically significant amount of weight. * One possible reason for the rapid resolution of diabetes after bariatric surgery .is that during the first week after surgery, patients can eat very little (about 300 Calories per day). It is well known that reducing calories to this level improves diabetes. Another possibility is that changes in the flow of food through the intestines may improve diabetes. Evidence for this comes from the observation that patients after gastric bypass have better glucose levels than those who have gastric banding. Researchers are interested in determining how much of the improvement in diabetes in the first week after Roux-en-Y gastric bypass (RYGBP) surgery is due to restricting calories, and how much is due to other factors, such as bypassing the upper part of the small intestine. Objectives: * To determine the change in total body insulin sensitivity after RYGBP compared to caloric restriction without surgery. * To study possible reasons for improvements in diabetes after RYGBP. Eligibility: - Individuals 18 to 60 years of age who have a body mass index (BMI) greater than 35 and have type 2 diabetes. Design: - This is not a randomized study, and patients will not receive bariatric surgery as part of this study. Two groups of patients will be studied: those scheduled for RYGBP surgery and those not undergoing surgery. * RYGBP Surgery Participants: * Up to 3 weeks before surgery, participants will spend 2 nights and days at the Vanderbilt University Clinical Research Center or the NIH Clinical Center for testing to learn about how their bodies handle sugar and use energy. During the 5 days prior to these tests, participants will be asked to not take diabetes medications, and will check blood sugar at least twice a day. * From 8 days before surgery, participants will begin an 800 Calorie per day liquid diet to prepare for surgery. * After surgery and discharge, participants will be readmitted to the Clinical Research Center at Vanderbilt or NIH for further tests and diet monitoring. Diabetes medications may be adjusted or stopped altogether based on the results of the tests. * Non-surgery Participants: * Participants will spend 2 nights and days in the NIH Clinical Center for testing to learn about how their bodies handle sugar and use energy. During the 5 days prior to these tests, participants will be asked to not take diabetes medications, and will check blood sugar at least twice a day. * After the tests, participants will begin an 800 Calorie per day liquid diet for 8 days. * After 8 days, participants will be readmitted to the Clinical Center at NIH for 1 week of further tests and a 300 Calorie per day diet. Diabetes medications may be adjusted or stopped altogether based on the results of the tests.
The investigators hypothesize that the improvements in insulin sensitivity, beta (β)-cell function, and inflammation will be greater, and the improvement in sarcopenic obesity will be less, in younger versus older individuals after substantial weight loss induced by sleeve gastrectomy bariatric surgery.
The goal of this cross-sectional observational study is to examine potential relationships between the blood and gut microbiota of patients with obesity before and after weight loss surgery (WLS) and evaluate potential ethnic differences in the blood and gut microbiotas before and after the WLS. The main aims / objectives of this sub-study are: * Aim 1. Compare the relationship between the blood and the gut microbiomes among a sample of (1) pre-WLS and (2) 6-month post-WLS participants. Hypothesis: Blood bacterial composition will resemble that of the gut microbiome among pre-WLS participants. Because the effect of WLS on the blood microbiome is not known, our post-WLS results will be mostly exploratory. * Aim 2. Determine racial differences in the blood microbiome of the pre- and post-WLS groups. Hypothesis2: Ethnic differences will be detected in both the pre- and post-WLS groups.
The goal of this observational study is to learn how the body processes ingested alcohol and how alcohol affects mood and blood sugar in both men and women after undergoing sleeve gastrectomy. The main question\[s\]it aims to answer are: * Are there differences in the way that ingested alcohol is handled in men versus women after sleeve gastrectomy? * What is the consequence of drinking alcohol on an empty stomach versus after a meal on blood sugar control after undergoing sleeve gastrectomy? Participants will participate in two types of alcohol tests (alcohol given orally or administered intravenously) after not eating anything overnight or after having a meal. Researchers will compare men and women who underwent sleeve gastrectomy with men and women who had no surgery, are of similar age and body composition, and have similar alcohol intake patterns.
This is a prospective collection of data from adult patients who have had an endoscopic metabolic and bariatric endoscopy procedure (EMBT) for primary or revision surgical procedures for obesity.
Cardiovascular disease is the leading cause of death worldwide. It is becoming clearer that heart failure (HF) is closely associated with body's metabolism. Even before the heart becomes weaker, it responds to the stresses by changing the fuels it burns, which results in a reduction in the heart's metabolic efficiency that worsens the heart's condition. Since the heart burns so much fuel and consumes fats and carbohydrates along with other available substrates, any changes in its metabolic efficiency could impact metabolism throughout the body. Specifically, HF is characterized by limited flexibility in substrate utilization leading to an overall energetic deficit. Such energetic deficit is associated with progressive remodeling and alter cardiac hemodynamics. For example, obesity is a widely known risk factor for cardiovascular disease likely lie in how the heart handles energy (substrate utilization and energetics). One commonly recommended treatment for cardiovascular disease, especially coronary artery disease (CAD) or congestive heart failure (CHF), is cardiac rehabilitation. Cardiac rehabilitation for symptomatic cardiovascular disease has been shown to promote a healthy lifestyle, improve physical health and reduce cardiovascular death iii with an apparent dose-dependent response. Participation results in a reduced risk of hospitalization and revascularization procedures, and improved functional status in randomized controlled trials. Thus, cardiac rehabilitation is recommended for individuals with symptomatic CAD or CHF by the American College of Cardiology and American Heart Association. In addition, exercise training in preclinical animal models mirroring the exercise component of cardiac rehabilitation routines have shown increased myocardial regeneration and cardioprotective molecular effects ameliorating adverse myocardial remodeling. Despite these benefits, there is vast heterogeneity in the efficiency of cardiac rehabilitation on the individual level with large variances in improved exercise capacity and cardiac function recovery. Personalization of cardiac rehabilitation necessitates a non-invasive approach to monitor the direct beneficial effects on the heart and more ideally, predict efficacy at baseline. Taken together, understanding how metabolic interventions including bariatric surgery and cardiac rehabilitation change myocardial structure and function is critical for the prevention, diagnosis and prognosis for patients with cardiovascular diseases. Advanced cardiovascular imaging using Magnetic Resonance Imaging (MRI) has proven to be effective in providing gold standard myocardial tissue characterization. Our team has developed novel cardiac MRI techniques that leverages endogenous tissue properties to reveal a milieu of deep tissue phenotypes including myocardial inflammation, fibrosis, metabolism, and microstructural defects. Among these phenotypes, myocardial microstructure has proven to be most sensitive to early myocardial tissue damage and is predictive of myocardial regeneration. In collaboration with cardiologists at Cleveland Clinic, the investigators aim to study how myocardial microstructure revealed by cardiac MRI changes cardiovascular disease patient population before and after metabolic interventions.
Metabolic surgery is an emerging option to treat obesity-related metabolic diseases (e.g., type 2 diabetes) and prevent cardiovascular disease (CVD). Metabolic surgery can profoundly alter the gut microbiota; meanwhile, gut microbiota may affect surgical outcomes. Longitudinal studies that examined pre- to post-surgery changes in gut microbiota and its relation to cardiometabolic health after surgery are limited. Furthermore, few studies have included African Americans, a population with high rates of cardiometabolic diseases. The investigators aim to fill these research gaps by establishing a longitudinal, observational study of metabolic surgery patients and applying multi-omics to identify stool, blood, and/or tissue microbial features related to post-surgery cardiometabolic outcomes. In the current study, the investigators plan to enroll up to 300 patients who undergo metabolic surgery at Vanderbilt University Medical Center and follow them for up to 10 years after surgery. Fasting blood and stool samples will be collected at pre-surgery and 3-month, 1-year, 2-year, and 3-year post-surgery clinical visits. Tissue samples (e.g., biopsies of the liver and adipose and remnants of the stomach) will be collected during operation. Meanwhile, participants will complete a REDCap survey at baseline and 1-year, 2-year, and 3-year post-surgery. Participants' electronic medical records will be used to obtain additional information and facilitate long-term follow-up. The investigators will evaluate pre- to post-surgery changes in the fecal microbiome and fecal and blood levels of metabolites and proteins and the associations of microbiome, metabolites, and proteins with cardiometabolic improvements after surgery. This study will advance our understanding of the role of gut microbiota in metabolic surgery, which may translate into novel approaches to identify and treat obese patients for better cardiometabolic health.
Type 2 diabetes (T2D) in youth is increasing in prevalence in parallel with the obesity epidemic. In the US, almost half of patients with renal failure have DKD, and ≥80% have T2D. Compared to adult-onset T2D, youth with T2D have a more aggressive phenotype with greater insulin resistance (IR), more rapid β-cell decline and higher prevalence of diabetic kidney disease (DKD), arguing for separate and dedicated studies in youth-onset T2D. Early DKD is characterized by changes in intrarenal hemodynamic function, including increased renal plasma flow (RPF) and glomerular pressure with resultant hyperfiltration, is common in Y-T2D, and predicts progressive DKD. Studies evaluating the two currently approved medications for treating T2D in youth (metformin and insulin) have shown these medications are not able to improve β-cell function over time in the youth. However, recent evidence suggests that bariatric surgery in adults is associated with improvements in diabetes outcomes, and even T2D remission in many patients. Limited data in youth also supports the benefits of bariatric surgery, regarding weight loss, glycemic control in T2D, and cardio-renal health. While weight loss is important, the acute effect of bariatric surgery on factors such as insulin resistance likely includes weight loss-independent mechanisms. A better understanding of the effects of bariatric surgery on pancreatic function, intrarenal hemodynamics, renal O2 and cardiovascular function is critical to help define mechanisms of surgical benefits, to help identify potential novel future non-surgical approaches to prevent pancreatic failure, DKD and cardiovascular disease. The investigators' overarching hypotheses are that: 1) Y-T2D is associated with IR, pancreatic dysfunction, intrarenal hemodynamic dysfunction, elevated renal O2 consumption and cardiovascular dysfunction which improve with bariatric surgery, 2) The early effect of bariatric surgery on intrarenal hemodynamics is mediated by improvement in IR and weight loss. To address these hypotheses, the investigators will measure GFR, RPF, glomerular pressure and renal O2, in addition to aortic stiffness, β-cell function and insulin sensitivity in youth ages 12-21 with T2D (n=30) before and after vertical sleeve gastrectomy (VSG). To further investigate the mechanisms of renal damage in youth with T2D, two optional procedures are included in the study prior to vertical sleeve gastrectomy: 1) kidney biopsy procedure and 2) induction of induced pluripotent stem cells (iPSCs) to assess morphometrics and genetic expression of renal tissue.
In this pre-post observational study, the investigators will enroll and follow a cohort of about 50 adults undergoing sleeve gastrectomy surgery for weight loss. Pre-operatively and at 6 and 12 months post-operatively, the investigators will use state-of-the-art metabolic and imaging techniques to evaluate calcium metabolism and skeletal health. Specific outcomes include intestinal calcium absorption capacity, bone mineral density (BMD) assessed by dual-energy X-ray absorptiometry (DXA) and quantitative computed tomography (QCT), and bone structure assessed by QCT and high-resolution peripheral QCT (HR-pQCT).
The investigators wish to study the effects of alcohol on three forms of bariatric surgery, Roux-en-Y gastric bypass (RYGB), sleeve gastrectomy (SG) and laparoscopic adjustable gastric banding (LAGB) and compare them with a non-surgical group. The surgery is not part of the clinical trial. If insurance does not cover the procedure, then the patient is responsible for payment of the surgical process. The investigators are doing pre and post surgery testing to provide a better understanding of the effect of bariatric surgery-induced weight loss on 1) alcohol absorption, distribution and elimination from the body, 2) the effects of alcohol on mood, and 3) the effects of alcohol on driving.
The primary objective of this study is to test an optimized control system for sensor-guided (physician administered) delivery of glucagon, and test Proof-of-Concept (POC) in a clinical setting in patients with severe hypoglycemia following bariatric surgery.