Effect of octreotide on fluid absorption and secretion by the normal human jejunum and ileum in vivo

Effect of octreotide on fluid absorption and secretion by the normal human jejunum and ileum in vivo

Background: We hypothesized that part of the non‐specific antidiarrhoeal effect of octreotide is mediated by a proabsorptive or antisecretory effect on small intestinal active electrolyte transport. Methods: To measure the effect of octreotide on net absorption, the jejunum and ileum of normal human...

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Bibliographic Details
Published in:Alimentary pharmacology & therapeutics Vol. 16; no. 4; pp. 769 - 777
Main Authors: Högenauer, C., Aichbichler, B., Santa Ana, C., Porter, J., Fordtran, J.
Format: Journal Article
Language:English
Published: Oxford UK Blackwell Science Ltd 01-04-2002
Blackwell
Subjects:
Adult
Antidiarrheals - pharmacokinetics
Antidiarrheals - pharmacology
Biological and medical sciences
Digestive system
Female
Humans
Ileum - drug effects
Ileum - metabolism
Intestinal Absorption - drug effects
Jejunum - drug effects
Jejunum - metabolism
Male
Medical sciences
Middle Aged
Octreotide - pharmacokinetics
Octreotide - pharmacology
Perfusion
Pharmacology. Drug treatments
Water-Electrolyte Balance - drug effects
Human
Intravenous administration
Healthy subject
Digestive system
Antidiarrheal agent
Octreotide
Epithelium
Ileum
Absorption
Jejunum
Electrolyte
Analog
Mechanism of action
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Summary:Background: We hypothesized that part of the non‐specific antidiarrhoeal effect of octreotide is mediated by a proabsorptive or antisecretory effect on small intestinal active electrolyte transport. Methods: To measure the effect of octreotide on net absorption, the jejunum and ileum of normal human subjects were perfused with a balanced electrolyte solution; to measure the effect of octreotide on normal active chloride secretion, the jejunum was perfused with a bicarbonate‐free solution. Results: During perfusion of a balanced electrolyte solution, octreotide increased basal net fluid absorption in the jejunum and ileum by about 40 mL/h per 30 cm. In the jejunum, octreotide markedly inhibited basal and sham feeding‐stimulated active chloride secretion and inhibited water secretion by 28 and 51 mL/h per 30 cm, respectively. Conclusions: Octreotide causes an increase in the net epithelial cell absorption rate of a balanced electrolyte solution in the normal jejunum and ileum. In the jejunum, this proabsorptive effect is mediated mainly by the reduction of normal active electrolyte secretion, rather than by stimulation of normal active electrolyte absorption. These results support the hypothesis that part of the antidiarrhoeal action of octreotide is due to its effects on active electrolyte transport mechanisms by normal epithelial cells of the small intestine.
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ISSN:0269-2813
1365-2036
DOI:10.1046/j.1365-2036.2002.01228.x