Latency of pancreatic fluid secretory response to intestinal stimulants in the dog.
AUTOR(ES)
Singer, M V
RESUMO
The effect of atropine and truncal vagotomy on the latency of the secretory response of the exocrine pancreas to rapid intraduodenal injection of L-tryptophan, sodium oleate and HCl or to rapid intraportal injection of secretin or CCK octapeptide has been determined in conscious dogs with pancreatic fistulae. The intraduodenal stimulants were injected either alone or in the presence of an intravenous infusion of secretin, CCK octapeptide or a combination of both hormones. The mean latency of response to tryptophan alone (62 +/- 2 s), oleate alone (64 +/- 5 s) and HCl alone (91 +/- 3 s) was significantly longer (P less than 0.05) than the latency to intraportal secretin (28 +/- 5 s) or CCK octapeptide (45 +/- 4 s). Infusion of secretin alone or with CCK octapeptide significantly shortened the latency of response to tryptophan (38 +/- 3 s) and oleate (41 +/- 5 s), but had no effect on the latency to intraduodenal HCl (96 +/- 4 s). Atropine and truncal vagotomy both increased the latency to intraduodenal tryptophan and oleate threefold but did not affect the latency to intraduodenal HCl or intraportal secretin or CCK octapeptide. These data support the hypothesis that the stimulus to pancreatic fluid secretion evoked by intraduodenal HCl is humoral rather than neural, while the responses to intraduodenal tryptophan and oleate are mediated, at least in part, via an enteropancreatic, vago-vagal, cholinergic reflex.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1199148Documentos Relacionados
- Gastric vasodilatation and vasoactive intestinal peptide output in response to vagal stimulation in the dog.
- Gastric relaxation and vasoactive intestinal peptide output in response to reflex vagal stimulation in the dog.
- Osmolality of distal tubular fluid in the dog.
- Plasma secretion and pancreatic secretion in response to liver extract meal with varied pH and exogenous secretin in the dog.
- The effect of catecholamines on intestinal glucose and oxygen uptake in the dog.