Physiological measurements of luminal stirring in the dog and human small bowel

Physiological measurements of luminal stirring in the dog and human small bowel

The resistance to absorption resulting from poor stirring of luminal contents (RLum) is considered to be equivalent to an unstirred layer of greater than 600 microns in the human small intestine. We measured RLum in the jejunum of conscious dogs by assessing the absorption rate of two rapidly absorb...

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Bibliographic Details
Published in:The Journal of clinical investigation Vol. 86; no. 5; pp. 1540 - 1547
Main Authors: LEVITT, M. D, FURNE, J. K, STROCCHI, A, ANDERSON, B. W, LEVITT, D. G
Format: Journal Article
Language:English
Published: Ann Arbor, MI American Society for Clinical Investigation 01-11-1990
Subjects:
Animals
Biological and medical sciences
Dogs
Fundamental and applied biological sciences. Psychology
Glucose - metabolism
Humans
Intestinal Absorption
Intestinal Mucosa - cytology
Intestine. Mesentery
Jejunum - cytology
Jejunum - physiology
Mathematics
Vertebrates: digestive system
Warfarin - metabolism
Human
Absorption
Animal
Stirring
Gut
Exploration
Small intestine
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Summary:The resistance to absorption resulting from poor stirring of luminal contents (RLum) is considered to be equivalent to an unstirred layer of greater than 600 microns in the human small intestine. We measured RLum in the jejunum of conscious dogs by assessing the absorption rate of two rapidly absorbed probes, glucose, and [14C]warfarin. When RLum was expressed as an unstirred layer, the maximal thickness of the unstirred layer (assuming negligible epithelial cell resistance) was only approximately 35 and 50 microns for perfusion rates of 26 and 5 ml/min, respectively. Maximal unstirred layer thickness for the human jejunum, calculated from previous studies of glucose absorption, yielded a mean value of only 40 microns (range: 23 to 65 microns). Since epithelial resistance appears to be negligible during absorption of low concentrations of glucose, the maximal unstirred layer of 40 microns should be close to the true value for glucose in the human small intestine. We conclude that the unstirred layer for rapidly absorbed compounds in dogs and man are less than one-tenth of previously reported values, but this layer still may remain the rate limiting step in absorption of rapidly transported compounds.
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ISSN:0021-9738
1558-8238
DOI:10.1172/jci114873