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Propulsion (mass Movements) in the Human Colon and Its Relationship to Meals and Somatic Activity

Overview
Journal Gut
Specialty Gastroenterology
Date 1970 Feb 1
PMID 5441889
Citations 50
Authors
D J HOLDSTOCK
J J Misiewicz
T Smith
E N Rowlands
Affiliations
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Abstract

Propulsive activity of the human colon was measured with radiopaque markers (shapes), radiotelemetering capsules, Perspex capsules containing (51)Cr, or with free (51)Cr sodium chromate. Propulsive activity can be readily detected by these techniques, none of which requires the use of radiological contrast media. With capsules containing (51)Cr or with free (51)Cr repeated observations can be made in the same patient without recourse to radiography. The patient can remain normally active during the test with encapsulated (51)Cr. Repeated observations may also be made with shapes, if films exposed at low mA are used. It was found that colonic intraluminal pressure activity rises markedly during and after food, but that in the resting patient this increase is rarely associated with propulsive activity. In physically active patients propulsion of colonic contents was significantly increased after meals. When colonic propulsion takes place, it does so by a series of mass movements. These results suggest that somatic activity is an important factor in the control of colonic transit in health or disease.

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References
1.
Hansky J, Connell A . Measurement of gastrointestinal transit using radioactive chromium. Gut. 1962; 3:187-8. PMC: 1413321. DOI: 10.1136/gut.3.2.187. View
2.
HINTON J, Lennard-Jones J, Young A . A ne method for studying gut transit times using radioopaque markers. Gut. 1969; 10(10):842-7. PMC: 1552992. DOI: 10.1136/gut.10.10.842. View
3.
Ritchie J . Colonic motor activity and bowel function. I. Normal movement of contents. Gut. 1968; 9(4):442-56. PMC: 1552712. DOI: 10.1136/gut.9.4.442. View
4.
RAMORINO M, COLAGRANDE C . INTESTINAL MOTILITY: PRELIMINARY STUDIES WITH TELEMETERING CAPSULES AND SYNCHRONIZED FLUOROCINEMATOGRAPHY. Am J Dig Dis. 1964; 9:64-71. DOI: 10.1007/BF02232680. View
5.
Ramsay G . PROGRESS OF A MARKER IN THE LARGE INTESTINE. Dis Colon Rectum. 1965; 8:74-5. DOI: 10.1007/BF02617053. View