Obesity Clinical Trial
Official title:
The Effect of Vagal Nerve Stimulation on Enteroendocrine Secretion and Glucose Metabolism
The overall aim of this application is to determine the mechanism(s) by which common bariatric surgical procedures alter carbohydrate metabolism. The study proposed will examine the effect of vagal nerve stimulation on insulin secretion and action.
The overall aim of this application is to determine the mechanism(s) by which common
bariatric surgical procedures alter carbohydrate metabolism. Very often, resolution of
diabetes occurs in the early post-operative period prior to the development of significant
weight loss. It has been suggested that bariatric surgery alters insulin action but few
studies have examined insulin secretion or postprandial glucose fluxes in such patients. At
the present time, little is known about how the various bariatric surgical procedures alter
glucose homeostasis. It is essential that the effect of bariatric surgery and meal size on
these parameters be understood and accurately measured. Enteroendocrine secretion is
affected by the rate of intestinal delivery of calories and may also be modulated by the
enteric nervous system and the rate of direct delivery of nutrients to enteroendocrine
cells. Direct measurement of intestinal transit is also an important part of understanding
how bariatric surgery alters intestinal secretion of hormones that may alter glucose
metabolism. The Oral and C-peptide Minimal Models when applied to C-peptide, glucose and
insulin concentrations after ingestion of a standard labeled mixed meal can accurately
measure insulin secretion and action. Subsequently, the disposition index provides a
measurement of the appropriateness of insulin secretion for the prevailing insulin action.
When coupled with established triple-tracer methodology, a mixed meal can be used to measure
fasting and postprandial glucose fluxes. Though the vagal trunks are preserved during
bariatric surgery, gastric transection during the formation of a gastric pouch for Roux-en-Y
gastric bypass (RYGB), or during the sleeve gastrectomy for the duodenal switch procedure,
may denervate post-gastric organs including the pancreas and intestine. Reversible vagal
block results in weight loss, decreased caloric intake, earlier satiation and reduced
hunger. The effect of this form of vagal denervation on glycemic control is unclear. There
is evidence that hepatic parasympathetic input regulates insulin action in rodents. Vagal
afferents are also important in hepatoportal glucose sensing.
Subjects enrolled into the study would be on stable Vagal Nerve Stimulation Blocker (VNB)
intervention in excess of 12 months, having taken part in prior observational study
examining the long-term effects of vagal inhibition. All subjects will be studied three
times after using a mixed meal. Participants will be admitted to the Mayo Clinic Clinical
Research Unit at 17.00 hours the evening before the study. Following ingestion of a
standardized low calorie mixed meal (400 Kcal: 55% carbohydrate, 30% fat, and 15% protein)
subjects will fast overnight. During the experiment subjects will undergo a mixed meal study
as outlined below (Lead-in Mixed Meal 1). On the day after study, subjects will be
randomized to one of 2 interventions: either discontinue use of the VNB or continue its use.
Subjects will then be restudied (Mixed Meal 2) the day after admission to the Clinical
Research Unit at 17.00 hours on the 13th day after randomization. To determine the metabolic
effects, if any, of starting VNB therapy, on the day after study, VNB use will be resumed or
discontinued depending on prior activation or inactivation. Subjects will then be restudied
(Mixed Meal 3) the day after admission to the Clinical Research Unit at 17.00 hours on the
13th day after completion of Mixed Meal 2. Following completion of the study, VNB use will
be resumed in all subjects.
;
Allocation: Randomized, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Basic Science
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