The S.L.I.M.M.S. Procedure for Severe Clinical Obesity

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BACKGROUND Metabolic Disease and Obesity Obesity is one of the most common chronic diseases in America and is strongly associated with additional metabolic disorders, in particular hypertension, dyslipidemia and insulin resistance. The combination of obesity with this cluster of metabolic disorders ...

BACKGROUND Metabolic Disease and Obesity Obesity is one of the most common chronic diseases in America and is strongly associated with additional metabolic disorders, in particular hypertension, dyslipidemia and insulin resistance. The combination of obesity with this cluster of metabolic disorders increases risk for cardiovascular disease and is widely recognized by the term Metabolic Syndrome. According to the Centers for Disease Control, in 2017-2018 the "prevalence of severe obesity among U.S. adults was 9.2%", the "age-adjusted prevalence of obesity in adults was 42.4%", and the prevalence of metabolic syndrome (MS) in the obese population is higher than 60%. The economic impact of metabolic syndrome is significant, with risk factors for MS shown to increase a person's annual healthcare costs by more than $2000. Efforts to treat obesity and obesity-associated metabolic disease currently include medical management and surgical intervention. Success rates with surgical interventions exceed those of medical management but are dependent on patients making permanent changes in eating behaviors. Commonly accepted surgical procedures have several mechanisms of action. These include decreased stomach volume restricting a patient's ability to eat, intestinal bypass resulting in significant malabsorption, and alterations in hormonal control of appetite and satiety. Standardized surgical procedures include Vertical Sleeve Gastrectomy (VSG), Roux-en-Y Gastric Bypass (GBP), Laparoscopic Gastric Banding (LB) and Biliopancreatic Diversion with Duodenal Switch (DS). Of these, VSG and GBP are the most commonly performed. VSG and GBP have been shown to result in similar weight loss, however, both procedures have a significant long-term failure rate. Key symptomatic differences between VSG and GBP During the initial 6-12 months after surgery, both VSG and GBP patients typically report a marked decrease in appetite as well as a significant restriction in volume of food that can be eaten before "feeling full." This period of decreased appetite and early satiety is commonly referred to as the "honeymoon period." After this honeymoon period, every patient's weight loss success becomes progressively more dependent on changes made in their eating habits. As would be expected with anatomically distinct procedures, patient symptoms begin to significantly differ over time. Patients that have undergone GBP, resulting in a gastric pouch that is less than 30cc report a more sustained feeling of restriction in the volume of food that can be eaten at a single meal compared to patients that have undergone VSG with a 100-150cc residual stomach. GBP patients also report a more persistent feeling of early satiety than do patients after VSG. In contrast, patients that have undergone VSG, with most of the Ghrelin-producing region of their stomach removed, report a more persistent decrease in appetite compared to patients after GBP, where the production of Ghrelin appears to rebound. Key hormonal differences between VSG and GBP VSG results in substantial and permanent decrease in the orexigenic hormone Ghrelin. After GBP, rebound of Ghrelin is shown to occur within 6 to 12 months after surgery. GBP causes a significantly greater increase in postprandial GLP-1 and Peptide YY, possibly contributing to earlier satiety and improved glycemic control. Key differences in side effects between VSG and GBP A common side effect of VSG is GERD. When symptoms are severe, conversion to GBP provides relief. Dumping syndrome, a side effect of GBP, is often described as an effective negative feedback mechanism, helping to minimize ingestion of high glycemic index foods. Dumping is not typically associated with VSG. Considering these differences, it is reasonable to question whether a single-stage procedure that combines the anatomic changes of both the GBP and VSG would result in; Improved weight loss An improved quality of life Better glycemic control PROPOSED STUDY Surgical Intervention The S.L.I.M.M.S. Procedure, for Surgically Limit Intake and Manage Metabolic Syndrome, is a single-stage operation combining Roux-en-Y Gastric Bypass with Partial Gastrectomy. The procedure specifications are listed below, A 20 cc gastric pouch A 10 mm diameter gastro-jejunal stoma A 40 cm biliopancreatic limb (measured from the Ligament of Treitz) A 150 cm roux limb Resection of the remaining fundus and body of the stomach, maintaining the majority of the gastric antrum Oversewing the gastric staple lines and buttressing with omentum Most new procedures focus on variations of intestinal reconstruction, or involve implantation of artificial devices. The proposed procedure does not require implantation of an artificial device, nor a new method of intestinal reconstruction. It simply combines the two most common bariatric procedures in the world with the hope of providing cumulative benefits without increased risk. Key Technical and Anatomic Precedents When VSG results in severe and recalcitrant GERD the standard treatment is conversion to GBP. The final anatomic result is a patient with a gastric bypass and the majority of the gastric fundus and body removed. This is similar to the final anatomy of the procedure proposed in this study, however, the S.L.I.M.M.S. procedure will be done as a single operation. In several centers, resectional gastric bypass, involving a standard gastric bypass combined with a subtotal or total gastrectomy, is performed routinely [24-28]. Published reports from these centers do not demonstrate increased complications. Significance of this Study Currently accepted surgical procedures all have significant long-term failure rates or frequently result in substantial malnutrition. Multiple new and novel surgical procedures are currently being tried that focus either on simple restriction or on increasing malabsorption. These new procedures are not designed with the intention of providing increased, permanent support for the patient's behavioral changes which are so critical in the long-term success of all bariatric surgery. The S.L.I.M.M.S. procedure is designed with the primary goal of a more sustained appetite suppression and increased early satiety. Aims of This Study The specific aim of the study is to assess the safety and efficacy of the S.L.I.M.M.S. Procedure as a stand-alone, single-stage bariatric operation. METHODS Trial Protocol Patient Recruitment a. Recruitment into the study will be achieved by a physician awareness campaign using direct mail. An Internet awareness campaign will target potential patients. Announcements will include description of planned procedure, aim of study and experimental nature of the S.L.I.M.M.S. Procedure. Patient Education a. Patient Education consisting of i. Detailed Consultation ii. Patient Education Packet iii. Written Examination iv. Education on pre- and post-operative dietary protocols v. Mandatory Dietary Rebuild counselling program vi. Permanent Surgical Weight Loss book provided vii. DietaryRebuild™ book provided viii. Exercise Instructions ix. Nutrition Supplementation Instructions Patient Enrolment a. Enrolment into the study will be proceeded by patient education including a detailed discussion of the nature of this clinical trial. A detailed consent will also be provided. Pre-trial Assessment Initial clinical assessment will include a detailed dietary history and a review for co-morbidities of obesity. Assessment of nutrition knowledge and quality of life will be obtained using the General Nutrition Knowledge Questionnaire, the Bariatric Quality of Life Index and the SF-36/Rand. Clinical assessment will include various weight parameters and measurement of serum glucose, hemoglobin A1c, lipids, vitamin levels, iron, ferritin, RBC folate, complete blood count, comprehensive metabolic profile, and abdominal ultrasound. Surgery: S.L.I.M.M.S. Procedure Patient Support In-clinic follow up Support groups offered Telephone-based group counselling sessions Post-operative Assessment Weight Parameters measured at 6 months, 12 months and annually Laboratory assessment will include serum glucose, hemoglobin A1c, lipids, vitamin levels, iron, ferritin, RBC folate, complete blood count, comprehensive metabolic profile and lipid profile at 6 months, 12 months and annually thereafter Quality of life measure at 1, 12 and 24 months; Bariatric Quality of Life Index and SF-36/Rand

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