Regulation of postprandial motility in the canine ileum

A. Fich; S. F. Phillips; M. Neri; R. B. Hanson; A. R. Zinsmeister

doi:10.1152/ajpgi.1990.259.5.g767

Regulation of postprandial motility in the canine ileum

A. Fich, S. F. Phillips, M. Neri, R. B. Hanson, A. R. Zinsmeister

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

We describe here further observations on a novel motor phenomenon that can be recorded regularly from the canine ileum in the late postprandial period, i.e., when residue of a meal reaches the distal small bowel. We reported before that this unique pattern of motility consisted of intraluminal pressure waves at a frequency (20-24/min) much greater than that of the ileal slow wave. In the current experiments, we document that these intraluminal pressure waves coincide with contraction of the circular muscle layer, as recorded from serosal strain gauges. However, the cellular origin and propagation of these contractile events are still unclear. By studying dogs with ileal loops and those with an intact bowel, we conclude that this is a local response of the ileum to the arrival of nutrients in its lumen and that it is under cholinergic control. This report supports the concept that the ileum may be particularly sensitive to its local intraluminal environment.

Original language	English
Pages (from-to)	G767-G774
Journal	American Journal of Physiology - Gastrointestinal and Liver Physiology
Volume	259
Issue number	5 22-5
DOIs	https://doi.org/10.1152/ajpgi.1990.259.5.g767
State	Published - 1990
Externally published	Yes

Keywords

Circular muscle contractions
Intraluminal pressures
Rapid ileal contractions

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10.1152/ajpgi.1990.259.5.g767

Cite this

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title = "Regulation of postprandial motility in the canine ileum",

abstract = "We describe here further observations on a novel motor phenomenon that can be recorded regularly from the canine ileum in the late postprandial period, i.e., when residue of a meal reaches the distal small bowel. We reported before that this unique pattern of motility consisted of intraluminal pressure waves at a frequency (20-24/min) much greater than that of the ileal slow wave. In the current experiments, we document that these intraluminal pressure waves coincide with contraction of the circular muscle layer, as recorded from serosal strain gauges. However, the cellular origin and propagation of these contractile events are still unclear. By studying dogs with ileal loops and those with an intact bowel, we conclude that this is a local response of the ileum to the arrival of nutrients in its lumen and that it is under cholinergic control. This report supports the concept that the ileum may be particularly sensitive to its local intraluminal environment.",

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AU - Fich, A.

AU - Phillips, S. F.

AU - Neri, M.

AU - Hanson, R. B.

AU - Zinsmeister, A. R.

PY - 1990

Y1 - 1990

N2 - We describe here further observations on a novel motor phenomenon that can be recorded regularly from the canine ileum in the late postprandial period, i.e., when residue of a meal reaches the distal small bowel. We reported before that this unique pattern of motility consisted of intraluminal pressure waves at a frequency (20-24/min) much greater than that of the ileal slow wave. In the current experiments, we document that these intraluminal pressure waves coincide with contraction of the circular muscle layer, as recorded from serosal strain gauges. However, the cellular origin and propagation of these contractile events are still unclear. By studying dogs with ileal loops and those with an intact bowel, we conclude that this is a local response of the ileum to the arrival of nutrients in its lumen and that it is under cholinergic control. This report supports the concept that the ileum may be particularly sensitive to its local intraluminal environment.

AB - We describe here further observations on a novel motor phenomenon that can be recorded regularly from the canine ileum in the late postprandial period, i.e., when residue of a meal reaches the distal small bowel. We reported before that this unique pattern of motility consisted of intraluminal pressure waves at a frequency (20-24/min) much greater than that of the ileal slow wave. In the current experiments, we document that these intraluminal pressure waves coincide with contraction of the circular muscle layer, as recorded from serosal strain gauges. However, the cellular origin and propagation of these contractile events are still unclear. By studying dogs with ileal loops and those with an intact bowel, we conclude that this is a local response of the ileum to the arrival of nutrients in its lumen and that it is under cholinergic control. This report supports the concept that the ileum may be particularly sensitive to its local intraluminal environment.

KW - Circular muscle contractions

KW - Intraluminal pressures

KW - Rapid ileal contractions

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JO - American Journal of Physiology - Gastrointestinal and Liver Physiology

JF - American Journal of Physiology - Gastrointestinal and Liver Physiology

IS - 5 22-5

ER -

Regulation of postprandial motility in the canine ileum

Abstract

Keywords

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