View clinical trials related to Morbid Obesity.
Filter by:The purpose of this study is to determine whether the LAP-BAND system is safe and effective in morbidly obese adolescents.
- The investigators aim to determine the clinical and metabolic outcomes of two available bariatric restrictive procedures: laparoscopic adjustable gastric banding (LAP-BAND) and laparoscopic sleeve gastrectomy for the treatment of morbid obesity (BMI > 35 with comorbidities or BMI > 40) in VETERANS. - The investigators hypothesize that the short and long term outcomes between laparoscopic adjustable gastric banding (LAP-BAND) and sleeve gastrectomy are similar in VETERANS.
- The investigators aim to determine the clinical and metabolic effects of sleeve gastrectomy with or without omentectomy in the treatment of morbid obesity. - The investigators hypothesize that the endocrine suppression of ghrelin (appetite hormone)and resistin (insulin antagonist) provided by sleeve gastrectomy and omentectomy (omentum or intra-abdominal fat removal) will provide clinical and metabolic benefits for morbidly obese patients.
The goal of the LABS-1 study is to assess the short-term safety of bariatric surgery.
Rationale: The extreme increase of obesity in the last years had led to this study. There is no consensus about how to anaesthetise morbidly obese patients. The amounts of narcotics given vary widely and rather depend on the anaesthetist than on the pharmacokinetics and dynamics in the morbidly obese patient. Reason for this is that it is not clear in what extend the pharmacokinetics and dynamics are affected in the morbidly obese patient. Objective: The study is performed in order to develop a population pharmacokinetic and pharmacodynamic model of Propofol when used for induction and maintenance of anaesthesia in the morbidly obese patient (BMI > 40). A covariate analysis will be performed in order to account for variability in pharmacokinetic and/or pharmacodynamic parameters. This model will take into account patient and procedure bound covariates. The results will be used to develop individualised dosing schemes of Propofol when used for induction and maintenance of anaesthesia in morbidly obese patients. Study design: A randomised, therapeutic and non-invasive study. Study population: Morbidly obese patients with a Body Mass Index > 40 undergoing laparoscopic banding or gastric bypass surgery, 18-60 year old. Intervention (if applicable): Patients will be randomised into two groups, one group will be given 200 milligrams of Propofol and the other group will be given 350 milligrams of Propofol. During the induction of anaesthesia with Propofol over 60 seconds, the patient is asked to count in order to measure time to induction of anaesthesia. During and following anaesthesia a maximum of 50 ml of blood will be taken from an indwelling arterial line. Depth of sedation will be measured using non-invasive Bispectral Index (target 40-60) and other standard measures (heart frequency and blood pressure). Main study parameters/endpoints: Primary endpoints: pharmacokinetic parameters; clearance, intercompartmental clearance, volume of central compartment and volume of peripheral compartment. Secondary endpoints: pharmacodynamic parameters; time to induction of anaesthesia (stop counting, eyelash reflex, quality of anaesthesia, corresponding dose required for induction of anaesthesia for both induction doses), EC50 using BIS, required doses of Propofol during maintenance of anaesthesia, wake-up time. Nature and extent of the burden and risks associated with participation benefit and group relatedness: A maximum amount of 50 milliliters of blood will be sampled from an indwelling arterial line. The patient will be asked to count slowly during induction of anaesthesia. Both induction doses of 200 and 350 milligrams are currently used standard induction doses for morbidly obese patients.
The laparoscopic sleeve-gastrectomy (SG) compared to laparoscopic proximal Roux-Y-gastric bypass (PGB) is as successful in the treatment of morbid obesity in the majority of patients. In case of insufficient weight loss malabsorption can to be added by performing laparoscopic bilious-pancreatic diversion duodenal switch (BPD). The resection of the gastric fundus (LG) leads to changes in gastrointestinal hormones that are possibly different to bypassing the fundus (PGB).
Altered bioavailability of drugs will potentially affect both drug efficacy as well as safety. In patients subjected to bariatric surgery due to morbid obesity the gastro intestinal tract is considerably reconstructed and a change in drug bioavailability is very likely. Getting further knowledge on important mechanisms responsible for altered bioavailability would help in predicting clinically relevant consequences on different drugs. In the present study we aim to investigate the effect of bariatric surgery on atorvastatin bioavailability. Atorvastatin is subjected to both extensive metabolism and drug transport and will potentially be a good predictor for mechanisms relevant for other drugs as well. In addition will the expression of different enzymes and transporters be measured in the gastrointestinal tract and in the liver to elucidate on mechanism behind the eventual effects.
The purpose of this study is to determine if gastric bypass patients experience hypoventilation in the immediate postoperative period, and to what degree.
To investigate the effect of weight loss by gastric balloon insertion on parameters of obstructive sleep apnea.
This two site study will evaluate the safety and effectiveness of laparoscopic truncal vagotomy for the treatment of obesity with baseline study and 18 month post op follow up.