Effect of reconstituted glutathione preparations on bioelectric brain activity in severe ethanol poisoning

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Fifty patients with acute severe ethanol poisoning (depression of consciousness at the time of admission was up to the level of coma) were examined. Based on the purpose of the study, patients were divided into two groups. In the first group, basic etiopathogenetic therapy was supplemented by the intravenous administration of a drug based on reduced glutathione: inosine glycyl-cysteinyl-glutamate disodium (IGCGD). In the second group, only basic therapy was performed. All patients underwent in the intensive care long-term continuous EEG monitoring, which was started at the end of basic resuscitation and stopped when the patient was clearly awake. Based on the nature of spontaneous EEG and reactivity, patients were divided into subgroups: patients with theta coma pattern and patients with delta coma pattern.

It was found that the introduction of IGCGD in the treatment of severe ethanol poisoning in the group of patients with a reactive delta pattern significantly increased the rate of formation of awakening in the EEG: in the subgroup with basic therapy, the formation time of the awakening pattern was about 3 hours, and in the subgroup of patients to whom the drug was administered 1,5 hours. In the group of patients with depression of EEG to the level of theta coma, IGCGD had no effect on the time of formation of the EEG pattern of awakening. The inclusion of inosine IGCGD in the treatment of severe alcohol intoxication was not accompanied by more frequent formation of epileptiform activity in the EEG.

作者简介

M. Aleksandrov

Institute of Toxicology of the Federal Medical Biological Agency;
Almazov National Medical Research Centre, RF Ministry of Health

编辑信件的主要联系方式.
Email: mdoktor@yandex.ru

Aleksandrov Mikhail Vsevolodovich

192019, Saint Petersburg; 194156, Saint Petersburg

俄罗斯联邦

T. Aleksandrova

Saint Petersburg I.I. Dzhanelidze Research Institute of Emergency Medicine

Email: fake@neicon.ru

Aleksandrova Tatyana Viktorovna

192242, Saint Petersburg

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V. Chernyi1

Institute of Toxicology of the Federal Medical Biological Agency

Email: 9111208487@mail.ru

Chernyi Valerii Stanislavovich

192019, Saint Petersburg 

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M. Lucyk

4S.M. Kirov Military Medical Academy, RF Ministry of Defence

Email: fake@neicon.ru

Lucyk Mikhail Anatolevich

194044, Saint Petersburg

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参考

  1. Aleksandrov M.V. Infl of psychotropic agents on bioelectric brain activity. Siberian Medical Review. 2017; 1 (103): 85–88. (in Russian).
  2. Aleksandrov M.V., Aleksandrova T.V., Povalyuhina E.S. Electroencephalographic Monitoring in the Department of Intensive Care and Intensive Care. Newsletter of the North-Western State Medical University named after I. I. Mechnikov. 2018; 10 (3): 81–90. (in Russian).
  3. Antushevich A.E., Buzanov D.V., Antonov V.G. et al. Evaluation of the effectiveness of the use of inosine glycyl-cysteinylglutamate dinatria in acute severe ethanol poisoning. Bulletin of the Russian Military Medical Academy. 2017; 2 (58): 7–12. (in Russian).
  4. Buzanov D.V., Petrova N.V., Afanas'ev V.V. et al. Use of molixan for early treatment of alcoholic coma. Emergency Medical Care. 2016; 17 (4): 70–75. (in Russian).
  5. Vasilev S.A. Neurometabolic therapy of acute severe poisoning: autoref. diss. of Doctor of Medical Sciences. SPb.; 2008. (in Russian).
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  7. Livanov G.A. Livanov G.A., Batocyrenova H.V. [et al.] Pharmacological correction of toxicogypoxic encephalopathy in patients with severe forms of acute poisoning by neurotropic poisons. Toxicological Review. 2007; 2: 24–29. (in Russian).
  8. Luzhnikov E.A., Goldfarb Yu.S., Mapupov A.M. Peculiarities of formation and course of toxic-hypoxic encephalopathy in case of acute poisoning with substances of neurotoxic effect. Anesthesiology and intensive care. 2005; 6: 4–8. (in Russian).
  9. Halyutin D.A., Tarumov R.A., Hovpachyov A.A. [et al.] Eff of peptide preparations on biochemical indices of blood serum, brain and liver of rats in acute severe poisoning with ethyl alcohol. Toxicological Review. 2016; 4 (139): 28–35. (in Russian).
  10. Shilov V.V., Aleksandrov M.V., Vasilev S.A., Batocyrenov B.V. Correction of hypoxia and its consequences in patients with acute cerebral insuffi in case of acute poisoning. Therapeutic archive. 2011; 83 (10): 58–61. (in Russian).
  11. Altindag E., Okudan Z.V., Özkan S.T. [et al.] Electroencephalographic patterns recorded by continuous EEG monitoring in patients with change of consciousness in the neurological intensive care unit. Noro Psikiyatr Ars. 2017. 54 (2). 168–174. doi: 10.5152/npa.2016.14822.
  12. Hirsch L.J., LaRoche S.M., Gaspard N. [et al.] American Clinical Neurophysiology Society's Standardized Critical Care EEG Terminology: 2012 version. J. Clin Neurophysiol. 2013; 30 (1): 1–27. Available at: http://doi.org/10.1097/WNP.0b013e3182784729.

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