This research study was done to see what the effects are of Teduglutide on people with short bowel syndrome (SBS). Teduglutide is a synthetic medication administered as an injection, which has shown to increase intestinal blood flow, inhibit gastric secretion, increase growth of intestinal cells and increase absorption of nutrients. Teduglutide has demonstrated to decrease Total Parenteral Nutrition (TPN) requirements by 20%. Teduglutide is approved by the Food and Drug Administration (FDA) for the treatment of adult patients with Short Bowel Syndrome (SBS) who are dependent on parenteral support. The primary hypotheses for this study were 1) that Teduglutide significantly increases the gastric emptying half time of solids when compared to placebo. 2) Teduglutide will significantly decrease the intestinal permeability and urinary excretion of lactulose when compared to placebo.
Short bowel syndrome (SBS) refers to the anatomical and/or functional decrease in small intestinal absorptive capacity, mostly caused by extensive intestinal resections. The decrease in intestinal absorptive capacity leads to malabsorption causing malnutrition, dehydration and weight loss, all of which severely impact patient's quality of life. In this study, qualifying participants were assigned to 2 different treatment arms consisting of placebo or Teduglutide 0.05 mg/kg subcutaneously daily for seven days. Subsequently, participants were switched over to the alternate treatment arm for seven days, after a washout period of at least seven days. In both arms, after six days of treatment or placebo, participants underwent a series of measurements during day 7 of treatment, including 8 hour GI transit, permeability measurements by using mannitol and lactulose (0-2h, 2-8h collections), and 8 hour urine and stool collections for measurement of volume. Throughout the study participants filled out a food diary and a stool diary (number, consistency, ease of passage) every day. On day 7 of each intervention period participants arrived in the clinical research unit after having fasted for at least 8 hours. Women of childbearing potential had a pregnancy test. Participants then received their seventh dose of placebo or Teduglutide (1 dose, 1 hour before breakfast). Technetium sestamibi (99mTc) pellets were ingested in a scrambled egg, toast, and milk meal (218 kcal) to facilitate measurement of gastric transit. All subjects received a standard 550 kcal meal at 4 hours (chicken meal) after the radiolabeled meal.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
QUADRUPLE
Enrollment
8
Participants will receive Teduglutide 0.05 mg/kg/d administered subcutaneously.
Participants will receive placebo matching study drug, administered subcutaneously.
Mayo Clinic in Rochester
Rochester, Minnesota, United States
Gastric Emptying Half-Time (T1/2)
The time for half of the ingested solids or liquids to leave the stomach.
Time frame: approximately 2 hours after radiolabeled meal is ingested
Overall Gut Transit
Given the variable extent of the residual length of the small intestine and colon, the proportion emptied from the body at 6 hours was assessed as an overall estimate of the whole gut transit. The 6-hour values for intra-abdominal counts were then compared with the 100% reference values of counts (at time zero, which is immediately after ingestion of the radiolabeled meal) to determine the percentage of isotope retained in the abdomen. 100% minus the percentage of retained isotope reflected the amount emptied from the GI tract.
Time frame: baseline, approximately 6 hours after ingestion of radiolabeled meal
Change in Small Intestinal and Colonic Permeability as Measured by Urinary Excretion of Mannitol
Permeability is measured through differential excretion of urine saccharides. A sugar solution (200 mg of mannitol and 1 g lactulose in 30 mL of water) was administered with the radiolabeled test meal at visits 1 and 2. Urine was collected during 0-2 and 2-8 hours. A baseline urine sample was also collected prior to ingestion of the sugars. Chemical analysis was preformed with high-speed liquid chromatography tandem mass spectrometry.
Time frame: baseline, approximately 2 hours and 8 hours after ingestion of radiolabeled meal
Change in Small Intestinal and Colonic Permeability as Measured by Urinary Excretion of Lactulose at 2 Hours
Permeability is measured through differential excretion of urine saccharides. A sugar solution (200 mg of mannitol and 1 g lactulose in 30 mL of water) was administered with the radiolabeled test meal at visits 1 and 2. Urine was collected during 0-2 and 2-8 hours. A baseline urine sample was also collected prior to ingestion of the sugars. Chemical analysis was preformed with high-speed liquid chromatography tandem mass spectrometry.
Time frame: baseline, approximately 2 hours after ingestion of radiolabeled meal
Change in Small Intestinal and Colonic Permeability as Measured by Lactulose/Mannitol Ratio at 2 Hours
Permeability is measured through differential excretion of urine saccharides. A sugar solution (200 mg of mannitol and 1 g lactulose in 30 mL of water) was administered with the radiolabeled test meal at visits 1 and 2. Urine was collected during 0-2 and 2-8 hours. A baseline urine sample was also collected prior to ingestion of the sugars. Chemical analysis was preformed with high-speed liquid chromatography tandem mass spectrometry.
Time frame: baseline, approximately 2 hours after ingestion of radiolabeled meal
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