View clinical trials related to Bariatric Surgery Candidate.
Filter by:The primary objective of this study is to assess hepatic glucose uptake using non-invasive metabolic imaging in three different populations that differ in terms of insulin and glucose kinetics. Between-group comparison will address the following two hypotheses: i) Hepatic glucose uptake will be lower in participants with type 1 diabetes compared with matched controls due to lack of portal insulin and delayed pharmacokinetics of subcutaneous bolus insulin. ii) Hepatic glucose uptake will be higher in participants after bariatric surgery compared with matched health controls due to accelerated glucose absorption and earlier and higher peak portal glucose and insulin concentrations.
The purpose of this study is to investigate the impact of bariatric surgery on the gut health. Patients operated with Roux-en-Y gastric bypass or sleeve gastrectomy and obese patients who want too loose weight with a traditional weight-loss program, will be followed up for 1 year. In these patients, the investigators will measure toxicity parameters to understand better the health status of their colon after surgery. In a next phase, the measured toxicity will be linked with certain players that might cause this toxicity. Protein metabolites, formed from undigested protein by microbiota in the colon, are expected to be toxic agents for the colon. Therefore, the investigators will investigate the fate of ingested protein once the surgery patients are metabolically stabilized.
The recent use of a pre-operative carbohydrate loading compared to fasting has been shown to improve the early recovery after surgical procedures by reducing the profound stress response following surgery and allowing a better postoperative blood glucose regulation by lowering insulin resistance. The responsible mechanisms of T2D remission after bariatric surgery are not completely understood and guidelines for the early management of T2D and GI following bariatric surgery are lacking, resulting in highly variable postoperative glucose control. No other study has yet investigated the effect of preoperative carbohydrate loading on glucose control the first days after the bariatric surgery in patients who have poor glycemic control
The aim of this observational prospective monocentric study is to examine glycemic patterns in adult T2D patients candidates to bariatric surgery, by using a continuous glucose monitoring (CGM) sensor over 14 days post-surgery, in order to search for indicators predicting T2D remission 1 year after surgery.
A retrospective, multicenter, comparative chart review study comparing laparoscopic and robotic-assisted Roux-en-Y Gastric Bypass (RYGB) and Sleeve Gastrectomy (SG)
Laparoscopic sleeve gastrectomy (LSG) is currently the most frequent primary bariatric procedure performed worldwide. LSG is safe and effective in terms of excess weight loss. It is a powerful metabolic operation that activates significant hormonal pathways that lead to changes in eating behaviour, glycemic control and intestinal functions. LSG is easier regarding its technical aspects and does not need any intestinal anastomosis, begin limited to the stomach. The most frequent and sometimes dangerous complications are leaking, haemorrhage, splenic injury, sleeve stenosis and gastroesophageal reflux. Despite its established efficacy and safety, controversy still exists on optimal operative technique for LSG: bougie size, the distance of resection margin from the pylorus, the shape of the section at the gastroesophageal junction, staple line reinforcement and intraoperative leak testing is among the most controversial issues 11[6]. In literature, different authors have adopted a resection distance from the pylorus between 2 and 6-7 cm with various reasons 11[6]. Resections more distant to the pylorus improve gastric emptying, prevent distal stenosis and reduce intraluminal pressure, potentially leading to a lower incidence of fistula and/or reflux. On the other hand, resections close to the pylorus would reduce gastric distensibility and increase intragastric pressure, potentially increasing satiety with less oral intake 11(11,12). The primary aim of this randomized monocentric study is to evaluate %EWL at 1 and 2 years follow-up after LSG in two Groups: Group A with a gastric resection starting from 2 cm from the pylorus with therefore a wide antrectomy and Group B with a gastric resection starting from 6 cm from the pylorus with therefore a small antrectomy.
The study will involve administration of alcohol in a controlled laboratory setting to individuals who are scheduled for Roux-en-Y gastric bypass surgery, and then asking them to return for another laboratory session 3 months following their surgery. A small number will be asked to return again 9 months following their surgery. The primary objective for this research is to collect pilot data on the effects of metabolic surgery (MS), also known as bariatric surgery, on the metabolism of alcohol. These data will be used as preliminary evidence in support of a subsequent application for funding, to be submitted to the National Institutes of Health. A secondary objective for this research is to determine the extent to which MS changes reactivity to alcohol-related cues. Heightened reactivity (e.g., attention bias; craving) to alcohol-related cues is known to signify increased risk for heavy drinking and AUD. No research to date has examined whether the increased sensitivity to alcohol that occurs as a result of MS changes cue-reactivity responses, which in theory reflect an individual's history of learning to associate alcohol consumption with its subjective effects. An exploratory objective is to compare metabolism of alcohol administered orally versus intravenously. IV infusion of alcohol bypasses so-called "first pass metabolism" of alcohol after absorption by the gastrointestinal tract. Thus, compared to oral ingestion, infusion can achieve the same blood alcohol concentration (BAC) with substantially less total alcohol dosage. Following the hypothesis, this should mean that, compared to oral ingestion, infusion will be associated with less production of liver fat, while also mimicking in pre-surgery patients what the investigators observe with oral ingestion following surgery. This comparison will permit better specification of when (during metabolism) and how alcohol is converted to liver fat, and will allow the investigators to separate effects of initial sensitivity to alcohol (a person's subjective response to the initial introduction of alcohol into the body) from effects associated with tolerance (i.e., the body's attempts to re-establish homeostasis after alcohol is introduced).
One in three adults in the United States suffers from obesity. Bariatric surgery is an increasingly utilized and effective treatment for obesity and obesity-related comorbidities, however, the massive weight loss associated with bariatric surgery adversely affects bone leads to an increased risk of fracture. Bisphosphonate medications, such as zoledronic acid, are used to treat bone loss in patients with osteoporosis, and this study investigates whether this medication can prevent bone loss associated with surgical weight loss procedures.
The diverse community of gut microbes commonly referred to as the 'gut microbiome', is increasingly suggested to play significant roles in health and disease, and to affect even distant non-GI organs by metabolite signaling. Type 2 diabetes mellitus (T2DM) patients feature a distinct gut microbiome signature4, while modulating the gut microbiome by either antibiotics or fecal microbial transplantation (FMT) is suggested to impact insulin sensitivity. Originally designed to treat obesity, bariatric surgeries often induce a robust and rapid weight-independent improvement in glucose homeostasis within days. Early diabetes remission following bariatric surgery is hypothesized to be mediated by rapid alterations in the gut microbiome and bile acids composition, however, the exact mechanism is yet to be uncovered. Elucidating this mechanism is important as it may form the basis of a new therapeutic modality in diabetes. The investigators intend to deeply characterize early post-bariatric changes in the gut microbiome of diabetic patients, as well as their gut mucosal transcriptome and metabolome, by using state-of-the-art experimental and computational pipelines. Additionally, The investigators will utilize a unique mouse model of bariatric surgery under germ-free conditions, developed at the Elinav lab, that allows us to dissect the role of microbes in post-operative metabolic improvements.
Patients undergoing Bariatric Surgery at the University of California Davis Medical Center will be divided into two groups, one receiving Standard of Care pain control medications vs the second group which will receive non-narcotic pain medications with rescue pain medications available if needed