Auditory nerve-brain stem evoked potentials and EEG during severe hypoglycemia

E. Deutsch; H. Sohmer; J. Weidenfeld; S. Zelig; I. Chowers

doi:10.1016/0013-4694(83)90282-1

Auditory nerve-brain stem evoked potentials and EEG during severe hypoglycemia

E. Deutsch^*, H. Sohmer, J. Weidenfeld, S. Zelig, I. Chowers

^*Corresponding author for this work

Institute for Medical Research Israel-Canada (IMRIC)

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

To investigate the effects of severe hypoglycemia on the ability of the brain to generate electrical activity, the EEG and auditory nerve-brain stem evoked potentials (ABP) were recorded before and during the development of insulin-induced hypoglycemia in rats (ABP only) and cats (ABP and EEG). No significant ABP changes were seen in rats in which the average blood glucose levels had reached 0.38 mmol/1 (= 7 mg%). In cats, even though the EEG was depressed, no ABP latency changes and only slightly significant amplitude changes were seen in animals in which the average blood glucose level was 0.8 mmol/1. In both animals blood glucose levels were below 1.66 mmol/1 for an average duration of 90 min. Therefore, even though it has been shown that the brain structures involved in generation of the ABP have higher metabolic rates, they seem to be resistant to deviations from homeostasis such as hypoglycemia.

Original language	English
Pages (from-to)	714-716
Number of pages	3
Journal	Electroencephalography and Clinical Neurophysiology
Volume	55
Issue number	6
DOIs	https://doi.org/10.1016/0013-4694(83)90282-1
State	Published - Jun 1983

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title = "Auditory nerve-brain stem evoked potentials and EEG during severe hypoglycemia",

abstract = "To investigate the effects of severe hypoglycemia on the ability of the brain to generate electrical activity, the EEG and auditory nerve-brain stem evoked potentials (ABP) were recorded before and during the development of insulin-induced hypoglycemia in rats (ABP only) and cats (ABP and EEG). No significant ABP changes were seen in rats in which the average blood glucose levels had reached 0.38 mmol/1 (= 7 mg%). In cats, even though the EEG was depressed, no ABP latency changes and only slightly significant amplitude changes were seen in animals in which the average blood glucose level was 0.8 mmol/1. In both animals blood glucose levels were below 1.66 mmol/1 for an average duration of 90 min. Therefore, even though it has been shown that the brain structures involved in generation of the ABP have higher metabolic rates, they seem to be resistant to deviations from homeostasis such as hypoglycemia.",

author = "E. Deutsch and H. Sohmer and J. Weidenfeld and S. Zelig and I. Chowers",

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AU - Deutsch, E.

AU - Sohmer, H.

AU - Weidenfeld, J.

AU - Zelig, S.

AU - Chowers, I.

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AB - To investigate the effects of severe hypoglycemia on the ability of the brain to generate electrical activity, the EEG and auditory nerve-brain stem evoked potentials (ABP) were recorded before and during the development of insulin-induced hypoglycemia in rats (ABP only) and cats (ABP and EEG). No significant ABP changes were seen in rats in which the average blood glucose levels had reached 0.38 mmol/1 (= 7 mg%). In cats, even though the EEG was depressed, no ABP latency changes and only slightly significant amplitude changes were seen in animals in which the average blood glucose level was 0.8 mmol/1. In both animals blood glucose levels were below 1.66 mmol/1 for an average duration of 90 min. Therefore, even though it has been shown that the brain structures involved in generation of the ABP have higher metabolic rates, they seem to be resistant to deviations from homeostasis such as hypoglycemia.

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Auditory nerve-brain stem evoked potentials and EEG during severe hypoglycemia

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