Vagally mediated inhibition of gastric acid secretion in the isolated mouse stomach evidence that cholecystokinin pancreozymin may be the inhibitory transmitter
Davison, J.S.; Najafi Farashah, A.
Journal of Physiology (Cambridge) 327: 100P-101P
1982
ISSN/ISBN: 0022-3751 Accession: 029527249
Full Text Article emailed within 1 workday: $29.90
Related References
Davison, J.S.; Najafi-Farashah, A. 1987: Vagal inhibition of gastric acid secretion: evidence for cholecystokinin as the inhibitory transmitter in the mouse stomach Canadian Journal of Physiology and Pharmacology 65(9): 1937-1941Davison, J.S.; Najafi Farashah, A. 1982: The effect of di butyryl cyclic gmp a competitive antagonist to cholecystokinin pancreozymin on gastric acid secretion in the isolated mouse stomach Life Sciences 31(4): 355-362
Davison, J.S. 1986: Vagal inhibition of gastric acid secretion evidence for cholecystokinin as an inhibitory transmitter Gastroenterology 90(5 Part 2): 1388
Davison, J.S.; Najafi-Farashah, A. 1982: The effect of dibutyryl cyclic guanosine monophosphate, a competitive antagonist to cholecystokinin-pancreozymin, on gastric acid secretion in the isolated mouse stomach Life Sciences 31(4): 355-361
Davison, J.S.; Najafi Farashah, A. 1981: The effect of di butyryl cyclic gmp a specific antagonist of cholecystokinin pancreozymin on acid secretion in the isolated mouse stomach Journal of Physiology (Cambridge) 312: 62P
Bedi, B.S.; Gillespie, G.; Gillespie, I.E. 1969: Secretin and cholecystokinin-pancreozymin in combination in the inhibition of gastric acid secretion British Journal of Surgery 56(5): 384-385
Konturek, S.J.; Konturek, J.; Cieszkowski, M.; Ebert, R.; Creutzfeldt, W. 1986: Comparison of gastric inhibitory polypeptide and intraduodenal or intravenous fat on gastric acid secretion from vagally innervated and denervated canine stomach Digestive Diseases and Sciences 31(1): 49-56
Nakajima, S.; Magee, D.F. 1970: Inhibitory action of cholecystokinin-pancreozymin on gastric pepsin secretion Experientia 26(2): 159
Watanabe, K.; Yano, S.; Yamamoto, M.; Kanaoka, S. 1993: Comparative effects of cimetidine and famotidine on the vagally stimulated acid secretion in the isolated mouse whole stomach Japanese Journal of Pharmacology 61(3): 229-236
Yamamoto, M.; Yano, S.; Watanabe, K. 1995: Comparison of effects of famotidine on vagally and field-electrically stimulated acid secretion in the isolated mouse whole stomach Japanese Journal of Pharmacology 69(3): 259-268
Laugier, R.; Sarles, H.; Bourry, J.; Bretholz, A.; Voirol, M. 1976: Evidence for an anti cholecystokinin pancreozymin factor in the rat delayed inhibition of protein secretion after intra duodenal oleic acid infusion Scandinavian Journal of Gastroenterology Suppl 11(41): 22
Szelenyi, I.; Postius, S. 1985: Evidence for an anaphylactic reaction-induced gastric acid secretion from the isolated stomach of the mouse Agents and Actions 16(3-4): 208-210
Li, P.; Chang, T.M.; Coy, D.; Chey, W.Y. 1995: Inhibition by PACAP of gastric acid secretion is mediated by secretin, somatostatin and PGE-2 in isolated perfused rat stomach Gastroenterology 108(4 Suppl): A148
Horie, S.; Komasaka, M.; Murayama, T. 2004: Inhibition of gastric acid secretion by the stimulation of vanilloid receptor subtype 1 in isolated mouse stomach Journal of Pharmacological Sciences 94(Suppl 1): 258P
Yamamoto, M.; Yano, S.; Watanabe, K. 1996: Functional determination of muscarinic receptor subtypes involved in vagally stimulated acid secretion in the isolated mouse whole stomach Japanese Journal of Pharmacology 71(Suppl 1): 206P