Peculiarities of night EEG-monitoring of sleep in children with type 1 diabetes mellitus depending on the glycemia level

BACKGROUND: The patterns of bioelectric activity of the brain in patients with type 1 diabetes mellitus are being actively studied. A recent study of changes in brain bioelectric activity during sleep in children with diabetes mellitus was done without monitoring changes in the level of glycaemia in...

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Autores principales: Alexandra N. Demyanenko, Irina L. Alimova
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Publicado: Endocrinology Research Centre 2018
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spelling oai:doaj.org-article:f8abc40e9ffa4a4fb1382a7f762198522021-11-14T09:00:21ZPeculiarities of night EEG-monitoring of sleep in children with type 1 diabetes mellitus depending on the glycemia level2072-03512072-037810.14341/DM9400https://doaj.org/article/f8abc40e9ffa4a4fb1382a7f762198522018-08-01T00:00:00Zhttps://www.dia-endojournals.ru/jour/article/view/9400https://doaj.org/toc/2072-0351https://doaj.org/toc/2072-0378BACKGROUND: The patterns of bioelectric activity of the brain in patients with type 1 diabetes mellitus are being actively studied. A recent study of changes in brain bioelectric activity during sleep in children with diabetes mellitus was done without monitoring changes in the level of glycaemia in real time. The current study was conducted with concurrent monitoring of EEG in sleep and glycaemia. AIM: To study the results of night time EEG monitoring of sleep in children with type 1 diabetes mellitus depending on the level of glycaemia. METHODS: This study included 20 children (10–17 years of age) with type 1 diabetes. All patients received continuous monitoring of glycaemia and night time EEG of sleep for 9 h. RESULTS: Absence of pathological changes was more often observed in patients with optimal glycaemic indices (n = 9) compared with patients with hypoglycaemic periods (n = 0) (P = 0.011, Fisher exact test) and hyperglycaemia (n = 3) (P = 0.0011, Fisher exact test). Light paroxysmal disturbances (high-amplitude bilateral flares during theta waves in stages 1–2 of sleep) were more often recorded in patients during periods of hypoglycaemia (n = 3) compared with periods of optimal glycaemia (n = 1) (P = 0.032, Fisher exact test). The hypersynchronous rhythm was also more often detected in patients during periods of hypoglycaemia (n = 3) compared with optimal glycaemia (n = 1) (P = 0.032, Fisher exact test). ECG potentials were more often recorded in hypoglycaemia (n = 4) compared with optimal glycaemia (n = 2) (P = 0.011, Fisher exact test) and hyperglycaemia (n = 3) (P = 0.005, Fisher exact test). The interrelation of brain bioelectric activity and glycaemic indices was seen in patients with hypoglycaemia (positive correlation) and at optimal glycaemia (negative correlation). The highest correlation was seen between ECG potentials (r = +0.61, P < 0.05), hypersynchronous rhythm (r = +0.40; P < 0.05) and hypoglycaemia. Significant differences between the groups were obtained in the beta range (increase in amplitude and beta-rhythm index) by the spectral analysis. CONCLUSIONS: Disturbance of the bioelectric activity of the brain is seen mainly in the hypoglycaemic state in patients with type 1 diabetes mellitus. This indicates the dysfunction of vegetative regulatory adaptation mechanisms, which can significantly increase the risk of severe hypoglycaemia.Alexandra N. DemyanenkoIrina L. AlimovaEndocrinology Research Centrearticlediabetes mellituschildrenbifunctional monitoringglycemiaelectroencephalographyNutritional diseases. Deficiency diseasesRC620-627ENRUСахарный диабет, Vol 21, Iss 3, Pp 186-192 (2018)
institution DOAJ
collection DOAJ
language EN
RU
topic diabetes mellitus
children
bifunctional monitoring
glycemia
electroencephalography
Nutritional diseases. Deficiency diseases
RC620-627
spellingShingle diabetes mellitus
children
bifunctional monitoring
glycemia
electroencephalography
Nutritional diseases. Deficiency diseases
RC620-627
Alexandra N. Demyanenko
Irina L. Alimova
Peculiarities of night EEG-monitoring of sleep in children with type 1 diabetes mellitus depending on the glycemia level
description BACKGROUND: The patterns of bioelectric activity of the brain in patients with type 1 diabetes mellitus are being actively studied. A recent study of changes in brain bioelectric activity during sleep in children with diabetes mellitus was done without monitoring changes in the level of glycaemia in real time. The current study was conducted with concurrent monitoring of EEG in sleep and glycaemia. AIM: To study the results of night time EEG monitoring of sleep in children with type 1 diabetes mellitus depending on the level of glycaemia. METHODS: This study included 20 children (10–17 years of age) with type 1 diabetes. All patients received continuous monitoring of glycaemia and night time EEG of sleep for 9 h. RESULTS: Absence of pathological changes was more often observed in patients with optimal glycaemic indices (n = 9) compared with patients with hypoglycaemic periods (n = 0) (P = 0.011, Fisher exact test) and hyperglycaemia (n = 3) (P = 0.0011, Fisher exact test). Light paroxysmal disturbances (high-amplitude bilateral flares during theta waves in stages 1–2 of sleep) were more often recorded in patients during periods of hypoglycaemia (n = 3) compared with periods of optimal glycaemia (n = 1) (P = 0.032, Fisher exact test). The hypersynchronous rhythm was also more often detected in patients during periods of hypoglycaemia (n = 3) compared with optimal glycaemia (n = 1) (P = 0.032, Fisher exact test). ECG potentials were more often recorded in hypoglycaemia (n = 4) compared with optimal glycaemia (n = 2) (P = 0.011, Fisher exact test) and hyperglycaemia (n = 3) (P = 0.005, Fisher exact test). The interrelation of brain bioelectric activity and glycaemic indices was seen in patients with hypoglycaemia (positive correlation) and at optimal glycaemia (negative correlation). The highest correlation was seen between ECG potentials (r = +0.61, P < 0.05), hypersynchronous rhythm (r = +0.40; P < 0.05) and hypoglycaemia. Significant differences between the groups were obtained in the beta range (increase in amplitude and beta-rhythm index) by the spectral analysis. CONCLUSIONS: Disturbance of the bioelectric activity of the brain is seen mainly in the hypoglycaemic state in patients with type 1 diabetes mellitus. This indicates the dysfunction of vegetative regulatory adaptation mechanisms, which can significantly increase the risk of severe hypoglycaemia.
format article
author Alexandra N. Demyanenko
Irina L. Alimova
author_facet Alexandra N. Demyanenko
Irina L. Alimova
author_sort Alexandra N. Demyanenko
title Peculiarities of night EEG-monitoring of sleep in children with type 1 diabetes mellitus depending on the glycemia level
title_short Peculiarities of night EEG-monitoring of sleep in children with type 1 diabetes mellitus depending on the glycemia level
title_full Peculiarities of night EEG-monitoring of sleep in children with type 1 diabetes mellitus depending on the glycemia level
title_fullStr Peculiarities of night EEG-monitoring of sleep in children with type 1 diabetes mellitus depending on the glycemia level
title_full_unstemmed Peculiarities of night EEG-monitoring of sleep in children with type 1 diabetes mellitus depending on the glycemia level
title_sort peculiarities of night eeg-monitoring of sleep in children with type 1 diabetes mellitus depending on the glycemia level
publisher Endocrinology Research Centre
publishDate 2018
url https://doaj.org/article/f8abc40e9ffa4a4fb1382a7f76219852
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