B. Zorko scite author profile

The purpose of the present study was to modulate the secretion of insulin and glucagon in Beagle dogs by stimulation of nerves innervating the intact and partly dysfunctional pancreas. Three 33-electrode spiral cuffs were implanted on the vagus, splanchnic and pancreatic nerves in each of two animals. Partial dysfunction of the pancreas was induced with alloxan. The nerves were stimulated using rectangular, charge-balanced, biphasic, and constant current pulses (200 micros, 1 mA, 20 Hz, with a 100-micros delay between biphasic phases). Blood samples from the femoral artery were drawn before the experiment, at the beginning of stimulation, after 5 min of stimulation, and 5 min after the end of stimulation. Radioimmunoassay data showed that in the intact pancreas stimulation of the vagal nerve increased insulin (+99.2 microU/ml) and glucagon (+18.7 pg/ml) secretion and decreased C-peptide secretion (-0.15 ng/ml). Splanchnic nerve stimulation increased insulin (+1.7 microU/ml), C-peptide (+0.01 ng/ml), and glucagon (+50 pg/ml) secretion, whereas pancreatic nerve stimulation did not cause a marked change in any of the three hormones. In the partly dysfunctional pancreas, vagus nerve stimulation increased insulin (+15.5 microU/ml), glucagon (+11 pg/ml), and C-peptide (+0.03 ng/ml) secretion. Splanchnic nerve stimulation reduced insulin secretion (-2.5 microU/ml) and increased glucagon (+58.7 pg/ml) and C-peptide (+0.39 ng/ml) secretion, and pancreatic nerve stimulation increased insulin (+0.2 microU/ml), glucagon (+5.2 pg/ml), and C-peptide (+0.08 ng/ml) secretion. It was concluded that vagal nerve stimulation can significantly increase insulin secretion for a prolonged period of time in intact and in partly dysfunctional pancreas.

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Recording of ENGs from the nerves innervating the pancreas of a dog during the intravenous glucose tolerance test

Rozman¹,

Zorko²,

Bunc³

et al. 2002

Physiol. Meas.

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Electroneurograms (ENGs) from the vagus nerve (VN), the splanchnic nerve (SN) and the pancreatic nerve (PN) innervating the pancreas of a dog, were recorded with chronically implanted 33-electrode spiral cuffs (cuff) before and after the pancreas were stimulated with intravenously (i.v.) administered glucose. In the cuffs platinum electrodes were arranged in three parallel spiral groups containing 11 electrodes on the inner surface. The cuffs had an inner diameter of 2 mm and a length of 18 mm. In a two-year study, the cuffs were implanted into two Beagle dogs and were also used for pancreatic stimulation, although this is not described in this paper. In the VN, the cuff was installed on the nerve at the neck, whilst in the SN, the cuff was installed on the nerve before the celiac ganglion, and in the PN, the cuff was installed on the nerve just before it enters the pancreas. Six months after implantation, when the model of interpretation of the results was developed, three recordings of ENG in each animal were conducted. The first one was conducted in the unstimulated pancreas while the second and the third were conducted 1 and 8 min after a known amount of glucose was i.v. administered. Since the results obtained in both animals were actually quite similar, we present the results obtained in one animal. To evaluate the changes in superficial activity of the nerves, elicited by the administration of glucose, the power spectra corresponding to ENGs, recorded from the nerves before and after the administration of glucose, were integrated within the band of frequencies ranging from 1 to 5 kHz. Accordingly, the magnitude of the integrated power spectrum (MIPS), corresponding to the ENG recorded from the SN before administration of glucose, was 2.863 au. One minute after glucose was administered the value fell to 2.795 au while 8 min after the administration the value returned to 2.8 au. The MIPS corresponding to the ENG recorded from the PN before the administration of glucose was 3.236 au. One minute after the administration the value fell to 2.901 au while 8 min after the administration the value rose to 3.009 au. The MIPS, corresponding to the ENG recorded from the VN before the administration of glucose, was 3.656 au. One minute after the administration the value fell to 3.565 au. Eight minutes after the administration the value rose to 3.689 au. The results show that 1 min after glucose was administered superficial activity in all three nerves was reduced while 8 min after administration the activity in the nerves returned to the same level of activity before the glucose was administered. This information could be effectively used in a further study of pancreatic innervation and its function. Moreover, the results suggest that cuffs could also be useful in recording the ENGs from other nerves of the autonomic nervous system that innervate various glands and internal organs.

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B. Zorko

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Recording of ENGs from the nerves innervating the pancreas of a dog during the intravenous glucose tolerance test

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