胰腺分泌对肠内氨基酸的反应:原位神经分离回肠犬的研究。

E Niebergall-Roth, S Teyssen, W Niebel, M V Singer
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引用次数: 10

摘要

背景:肠内碳水化合物和脂质影响胰腺外分泌,但肠内氨基酸的作用和回肠外源性神经作为胰腺碳酸氢盐和酶输出介质的作用尚不清楚。方法:对4只狗进行全回肠外神经全断。在胃、十二指肠(收集纯胰液)和空肠-回肠连接处置入托马斯式套管。8只神经完整的对照犬只接受了3个瘘管。康复后,对两组狗进行了胰管内输注分级负荷色氨酸(0.12-10.0 mmol/h)的剂量反应研究,同时静脉注射分泌素(20.5 pmol/kg/h)和蓝蛋白(29.6 pmol/kg/h)。隔天分别进行0.15 M NaCl的对照实验。结果:在两组狗中,静脉分泌素加蓝蛋白显著(p < 0.05)增加了胰腺碳酸氢盐和高于基础水平的蛋白质输出。肠内色氨酸导致胰腺碳酸氢盐和蛋白质对分泌素加蛋白的反应呈剂量依赖性降低。在失神经回肠的狗中,这种抑制作用明显强于完整的动物。在两组狗中,对所有色氨酸负荷的225分钟综合碳酸氢盐(IBR)和蛋白质反应(IPR)均显著低于对照实验。去神经动物的IBR和IPR均明显低于正常动物。结论:1)整个回肠的外源性去神经是研究神经调控胰腺外分泌的有价值的准备;2)在完整和去神经动物中,氨基酸色氨酸诱导激素刺激的胰腺碳酸氢盐和蛋白质输出的“回肠制动”;3)回肠的外源性神经可能不是肠内色氨酸抑制作用的主要介质,而是抵消这种作用。
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Pancreatic secretory response to intraileal amino acids: studies in dogs with an in situ neurally isolated ileum.

Background: Intraileal carbohydrates and lipids affect the pancreatic exocrine secretion, but the effect of intraileal amino acids and the role of the extrinsic nerves of the ileum as mediators of the pancreatic bicarbonate and enzyme output are unknown.

Methods: Four dogs underwent total extrinsic denervation of the entire ileum. Thomas-like cannulas were placed into the stomach, duodenum (to collect pure pancreatic juice), and at the jejuno-ileal junction. Eight neurally intact control dogs received only the three fistulas. After recovery, in both sets of dogs, dose-response studies of the pancreatic secretory response to intraileal infusion with graded loads of tryptophan (0.12-10.0 mmol/h) were performed, given against an intravenous (iv) background of secretin (20.5 pmol/kg/h) and cerulein (29.6 pmol/kg/h). On separate days, control experiments with intraileal infusion of 0.15 M NaCl were performed.

Results: In both sets of dogs, iv secretin plus cerulein significantly (p < 0.05) increased pancreatic bicarbonate and protein output above basal. Intraileal tryptophan caused a dose-dependent decrease in the pancreatic bicarbonate and protein response to secretin plus cerulein. In the dogs with denervated ileum, this inhibition was significantly stronger than in the intact animals. In both sets of dogs, the 225-min integrated bicarbonate (IBR) and protein response (IPR) to all loads of tryptophan were significantly lower than in control experiments. Both IBR and IPR were significantly lower in the denervated as compared with the intact animals.

Conclusions: 1) Extrinsic denervation of the entire ileum is a valuable preparation to study the role of nerves in the control of pancreatic exocrine secretion; 2) both in the intact and denervated animals the amino acid tryptophan induces an "ileal brake" of the hormonally stimulated pancreatic bicarbonate and protein output; 3) the extrinsic nerves of the ileum are probably not the dominant mediators of the inhibitory action of intraileal tryptophan but rather counteract this effect.

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