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2007 | 63 | 01 |

Tytuł artykułu

Kwasy zolciowe a aktywnosc motoryczna jelita cienkiego

Autorzy

Warianty tytułu

EN
Bile acids and motor activity of the stomach and the small intestine

Języki publikacji

PL

Abstrakty

EN
Bile acids exhibit detergent properties. Their influence on various types of cells in the gastrointestinal wall, including smooth muscle cell, is substantial. They are present in the intestinal lumen and circulation as conjugated or deconjugated salts. In studies in vitro they cause smooth muscle relaxations. Their effects in vivo can be due to their direct action on the smooth muscles or they act indirectly: the action can be mediated by the nervous system and gut hormone release. When the gastrointestinal mucosa is exposed to bile or bile acids the frequency of gastric contractions increases and the activity front of the migrating motor complex (MMC) is initiated. Bile acids exert a stronger effect than the entire bile. The type and amount of bile acids can also be important. The intraarterial route of bile acid administration appears to be more efficient than intraluminal route. Bile diversion from the duodenum induces contrary effects, i.e. a relaxing effect in the stomach and irregular motor activity in the small bowel or prolonged phase 2 MMC have been observed. These effects are apparently due to the interaction of bile acids with muscarinic receptors and mediated by motilin and cholecystokinin, two gut hormones the release of which is strongly influenced by luminal bile acids.

Wydawca

-

Rocznik

Tom

63

Numer

01

Opis fizyczny

s.44-46,rys.,bibliogr.

Twórcy

autor
  • Akademia Rolnicza, ul.Norwida 31,50-375 Wroclaw

Bibliografia

  • 1. Anderson J. J., Bolt R. J., Ullman B. M.: Effect of bile and fat on gastric motility under the influence of various stimulants. Am. J. Dig. Dis. 1968, 13, 157-167.
  • 2. Armstrong D. N., Krenz H. K., Modlin I. M., Ballantyne G. H.: Bile salt inhibition of motility in the isolated perfused rabbit terminal ileum. Gut 1993, 34, 483-488.
  • 3. Carey M. C.: Physical-chemical properties of bile acids and their salts, [w:] Sterols and Bile Acids. Danielsson H., Sjövall J. (wyd.), Elsevier Science Publishers B. V. (Biomedical Division), Amsterdam 1985, 345-403.
  • 4. Davies H. A., Wheeler M. H., Psaila J., Rhodes J., Newcombe R. G., Jones J. M., Biol L. I., Procter D., Adrian T. E., Bloom S. R.: Bile exclusion from the duodenum. Its effect on gastric and pancreatic function. Dig. Dis. Sci. 1985, 30, 954-960.
  • 5. Emmelin N.: Antagonism between bile acids and substances stimulating smooth muscle, especially histamine. Acta Physiol. Scand. 1943, 5, 372-379.
  • 6. Eyre-Brook I. A., Read N. W., Brownson A., Johnson A. G.: Influence of intraduodenal chenodeoxycholic acid on secretory and pressure activity of the stomach and duodenum. J. Gastroenterol. Hepatol. 1988, 3, 557-564.
  • 7. Gaginella T. S., Stewart J. J., Gullikson G. W., Olsen W. A., Bass P.: Inhibition of small intestinal mucosal and smooth muscle cell function by ricinoleic acid and other surfactants. Life Sci. 1975, 16, 1595-1605.
  • 8. Hellstrom P. M., Nilsson I., Svenberg T.: Role of bile in regulation of gut motility. J. Intern. Med. 1995, 237, 395-402.
  • 9. Hofmann A. F.: Biliary secretion and excretion: the biliary component of the enterohepatic circulation of bile acids, [w:] Physiology of the Gastrointestinal Tract. Johnson L. R. (wyd.), Raven Press, New York 1994, 1555-1576.
  • 10. Hofmann A. F.: The continuing importance of bile acids in liver and intestinal disease. Arch. Intern. Med. 1999, 159, 2647-2658.
  • 11. Kaur B. S., Triadafilopoulos G.: Acid- and bile-induced PGE2 release and hyperproliferation in Barrett's esophagus are COX-2 and PKC-e dependent. Am. J. Physiol. 2002, 283, G327-G334.
  • 12. Kruis W., Haddad A., Phillips S. F.: Chenodeoxycholic and ursodeoxycholic acids alter motility and fluid transit in the canine ileum. Digestion 1986, 34, 185-195.
  • 13. Luiking Y. C., Kloppers N. J. M., Roelofs J. M. M., Nieuwenhuijs V. B., Peeters T. L., Akkermans L. M. A., van Berge Henegouwen G. P.: Effects of intraduodenal bile on interdigestive gastrointestinal and gallbladder motility in healthy subjects. Digestion 2001, 63, 195-202.
  • 14. Nilsson I., Svenberg T., Hellström P. M.: Duodenal drainage reduces cycling frequency of the migrating motor complex in humans. Acta Physiol. Scand. 1993, 149, 525-526.
  • 15. Ozeki K., Sarna S. K., Condon R. E., Chey W. Y., Koch T. R.: Enterohepatic circulation is essential for regular cycling of duodenal migrating motor complex in dogs. Gastroenterology 1992, 103, 759-767.
  • 16. Peeters T. L.: Bile acids and small intestinal motility during fasting. Acta Gastro-Enterol. Belg. 1988, LI, 509-515.
  • 17. Penagini R., Misiewicz J. J., Frost P. G.: Effect of jejunal infusion of bile acids on small bowel transit and fasting jejunal motility in man. Gut 1988, 29, 789-794.
  • 18. Penagini R., Spiller R. C., Misiewicz J. J., Frost P. G.: Effect of ileal infusion of glycochenodeoxycholic acid on segmental transit, motility, and flow in the human jejunum and ileum. Gut 1989, 30, 609-617.
  • 19. Pezzolla F., Riezzo G., Maselli M. A., Giorgio I.: Gastric electrical dysrhythmia following cholecystectomy in humans. Digestion 1991, 49, 134-139.
  • 20. Portincasa P., Peeters T. L., Van Berge-Henegouwen G. P., Van Solinge W. W., Palasciano G., Van Erpecum K. J.: Acute intraduodenal bile salt depletion leads to strong gallbladder contraction, altered antroduodenal motility and high plasma motilin levels in humans. Neurogastroenterol. Motil. 2000, 12, 421-430.
  • 21. Raufman J.-P., Cheng K., Zimniak P.: Activation of muscarinic receptor signaling by bile acids. Dig. Dis. Sci. 2003, 48, 1431-1444.
  • 22. Romański K. W., Peeters T. L., Vantrappen G.: Are enterohepatic circulation and interdigestive motility related through motilin and PP secretion? Gastroenterology 1985, 88, 1558.
  • 23. Romero F., Frediani-Neto E., Paiva T. B., Paiva A. C.: Role of Na⁺/Ca⁺⁺ exchange in the relaxant effect of sodium taurocholate on the guinea-pig ileum smooth muscle. Naun. Schmiedeb. Arch. Pharmacol. 1993, 348, 325-331.
  • 24. Sparrow M. P., Simmonds W. J.: The effect of bile salts on contractility and calcium depletion of polarized and depolarized smooth muscle. J. Pharmacol. Exp. Ther. 1965, 150, 208-215.
  • 25. Takahashi I., Dodds W. J., Ammon H., Hogan W. J.: Effect of intraduodenal bile on myoelectrical activity of the upper gastrointestinal tract and sphincter of Oddi, [w:] Gastrointestinal Motility. Roman C. (wyd.), MTP Press Limited, Lancaster 1984, 249-256.
  • 26. Toouli J., Al-Jiffry B. O.: Anatomy and physiology of the biliary tree and gallbladder, [w:] Diseases of the Gallbladder and Bile Ducts. Clavien P. A., Baillie J., Suhocki P. (wyd.), Blackwell Science, Malden 2001, 3-17.
  • 27. Van Ooteghem N. A., Van Erpecum K. J., Van Berge-Henegouwen G. P.: Effects of ileal bile salts on fasting small intestinal and gallbladder motility. Neurogastroenterol. Motil. 2002, 14, 527-533.
  • 28. Wildgrube H. J., Stockhausen H., Petri J., Füssel U., Lauer H.: Naturally occurring conjugated bile acids, measured by high-performance liquid chromatography, in human, dog and rabbit bile. J. Chromatogr. 1986, 353, 207-213.
  • 29. Yoshitomi S., Martin A., Murat J., Yamamoto M., Tanaka T., Ohshio G., Manabe T., Imamura M.: Electrogastroenterographic examination of 22 patients before and after cholecystectomy. Dig. Dis. Sci. 1996, 41, 1700-1705.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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