Porte D, Girardier L, Seydoux J, Kanazawa Y, Posternak J
J Clin Invest. 1973 Jan;52(1):210-4. doi: 10.1172/JCI107168.
The effects of stimulation of the mixed autonomic nerve to the dog pancreas has been studied under conditions in which both pancreaticoduodenal vein blood flow and insulin concentration were determined. Stimulation resulted in increased insulin output, which was blocked by prior administration of atropine. Blood flow was reduced by stimulation in proportion to the rate of stimulation. At 40 stimuli/s a maximum effect was found at 1 min with a gradual return toward base line despite continued application of the stimulus. Atropinization had no effect on blood flow changes. Insulin responses to 0.1 g/kg glucose were reduced on the average 40% by simultaneous stimulation of the pancreatic nerve at 40 cycles/s in atropinized animals. These studies establish this preparation as a reproducible model for the direct examination of autonomic influences on endocrine pancreatic function. From them it is concluded that the nerve supply to the endocrine pancreas of the dog is sufficient to inhibit insulin secretion by activation of the sympathetic nerves and to stimulate insulin secretion by activation of the parasympathetic nerves.
在测定胰十二指肠静脉血流量和胰岛素浓度的条件下,研究了刺激支配犬胰腺的混合自主神经的效应。刺激导致胰岛素分泌增加,这一效应可被预先给予阿托品所阻断。刺激使血流量按刺激频率成比例减少。以40次刺激/秒的频率刺激时,1分钟时出现最大效应,尽管持续刺激,但血流量仍逐渐恢复至基线水平。阿托品化对血流量变化无影响。在阿托品化的动物中,以40次/秒的频率同时刺激胰腺神经时,胰岛素对0.1 g/kg葡萄糖的反应平均降低40%。这些研究确立了该实验制备方法作为直接研究自主神经对胰腺内分泌功能影响的可重复模型。由此得出结论,犬内分泌胰腺的神经支配足以通过激活交感神经抑制胰岛素分泌,并通过激活副交感神经刺激胰岛素分泌。