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Placebo-controlled study of xenon effect on the emotions and frequency of the EEG alpha-oscillations. / Aftanas, L. I.; Bazanova, O. M.; Khabarov, A. N. et al.

In: Vestnik Rossiiskoi Akademii Meditsinskikh Nauk, Vol. 74, No. 5, 01.01.2019, p. 342-350.

Research output: Contribution to journalArticlepeer-review

Harvard

Aftanas, LI, Bazanova, OM, Khabarov, AN, Pustovoit, SM & Brack, IV 2019, 'Placebo-controlled study of xenon effect on the emotions and frequency of the EEG alpha-oscillations', Vestnik Rossiiskoi Akademii Meditsinskikh Nauk, vol. 74, no. 5, pp. 342-350. https://doi.org/10.15690/vramn1158

APA

Aftanas, L. I., Bazanova, O. M., Khabarov, A. N., Pustovoit, S. M., & Brack, I. V. (2019). Placebo-controlled study of xenon effect on the emotions and frequency of the EEG alpha-oscillations. Vestnik Rossiiskoi Akademii Meditsinskikh Nauk, 74(5), 342-350. https://doi.org/10.15690/vramn1158

Vancouver

Aftanas LI, Bazanova OM, Khabarov AN, Pustovoit SM, Brack IV. Placebo-controlled study of xenon effect on the emotions and frequency of the EEG alpha-oscillations. Vestnik Rossiiskoi Akademii Meditsinskikh Nauk. 2019 Jan 1;74(5):342-350. doi: 10.15690/vramn1158

Author

Aftanas, L. I. ; Bazanova, O. M. ; Khabarov, A. N. et al. / Placebo-controlled study of xenon effect on the emotions and frequency of the EEG alpha-oscillations. In: Vestnik Rossiiskoi Akademii Meditsinskikh Nauk. 2019 ; Vol. 74, No. 5. pp. 342-350.

BibTeX

@article{06a6a87d7f3c475f86ff9459811cf3ab,
title = "Placebo-controlled study of xenon effect on the emotions and frequency of the EEG alpha-oscillations",
abstract = "Background: A partial blocker of N-methyl-D-aspartate (NMDA) receptors, the noble gas Xe in sub-anesthetic (25-50%) doses performs its neuroprotective effects on the brain structures functions through binding to glycine site. According to the single studies, Xe reveals the thymoleptic properties, which are reflected in the strengthening of positive emotional activation and a decreasing - negative. The purpose of this placebocontrolled pilot study in healthy volunteers was to evaluate the translational potential of Xe as a possible antidepressant. Methods: In placebocontrolled, double-blind study 14 right-handed healthy volunteers (males, right handed) were randomly assigned to 15 min inhalation session either of an admixture of up to a maximum of 25% Xe (25% Xe/30% O2/45% N2) or placebo (70% N2/30% O2) for 15 min. The inspiratory Xe concentration was titrated during the first 5 min until 25% was achieved and maintained for 5 min. Across the study, we had recorded, ECG, SGR, and 64-channel EEG. As a neurophysiological index of the experienced emotion intensity changes individual alpha peak frequency (iAPF) shift was studied. Changes in intensity of experiencing ten discrete emotions (surprise, joy, happiness, bliss, awe, fear, sadness, anxiety, anger, disgust) as indexed by visual analog scales (VAS) were recorded in pre- and post Xe and placebo inhalation conditions. The research received approval of the institutional ethics committee. Results: Repeated measures ANOVAs of the emotional reactivity [(GAZ 2: Xe, placebo) × CONDITION (2: pre, post) × EMOTION (10)] and of the iAPF [(GAZ 2: Xe, placebo) × CONDITION: 2 (pre, post) established high significant specific effects of the Xe compared with placebo. The impact of Xe in a sample of examined subjects revealed two types of responses: in one part, an increase in the experiencing positive emotions intensity, accompanied by the rise in iAPF, in the other, insignificant changes in the initial emotional profile with a tendency to decrease in combination with a decrease in iAPF. Thus, in agreement with ad hoc hypothesis, Xe in sub-anesthetic doses induced the enhancement of the positive emotion intensity experience only in those participants who demonstrated the increasing of the iAPF. Correlation and regression analyses revealed a positive correlation of iAPF changes with an intensity of positive emotional activation (increased power of experiencing emotions of joy, happiness, and bliss), as well as the iAPF shift ability to predict the thymoleptic effect of Xe with 74% probability. Additionally, we were able to deduce that individual nature of changes in iAPF and the nature of emotional-reactivity in response to Xe depend on the absolute value of the baseline iAPF. Conclusions: We had first established that Xe as a blocker of NMDA receptors in sub-anesthetic doses enhances positive emotional activation (increased intensity of experiencing discrete emotions of joy, happiness, and bliss) in healthy volunteers. The presence or absence of the thymoleptic response to Xe varies due to the individual characteristics of the neurophysiological endophenotype of the EEG alpha activity - iAPF. The obtained data allow us to consider iAPF as a potential neurophysiological endophenotypic predictor of an individual thymoleptic response to Xe in sub-anesthetic doses in the clinic of the affective disorders. To assess the real Xe translational potential, as a clinical thymoleptic and antidepressant agent, it is necessary to perform large-scale placebo-controlled clinical studies in patients with various clinical forms of negative affect pathology.",
keywords = "Depression, EEG, Emotions, Individual alpha peak frequency, Xenon",
author = "Aftanas, {L. I.} and Bazanova, {O. M.} and Khabarov, {A. N.} and Pustovoit, {S. M.} and Brack, {I. V.}",
year = "2019",
month = jan,
day = "1",
doi = "10.15690/vramn1158",
language = "English",
volume = "74",
pages = "342--350",
journal = "Vestnik Rossiiskoi Akademii Meditsinskikh Nauk",
issn = "0869-6047",
publisher = "Paediatrician Publishers LLC.",
number = "5",

}

RIS

TY - JOUR

T1 - Placebo-controlled study of xenon effect on the emotions and frequency of the EEG alpha-oscillations

AU - Aftanas, L. I.

AU - Bazanova, O. M.

AU - Khabarov, A. N.

AU - Pustovoit, S. M.

AU - Brack, I. V.

PY - 2019/1/1

Y1 - 2019/1/1

N2 - Background: A partial blocker of N-methyl-D-aspartate (NMDA) receptors, the noble gas Xe in sub-anesthetic (25-50%) doses performs its neuroprotective effects on the brain structures functions through binding to glycine site. According to the single studies, Xe reveals the thymoleptic properties, which are reflected in the strengthening of positive emotional activation and a decreasing - negative. The purpose of this placebocontrolled pilot study in healthy volunteers was to evaluate the translational potential of Xe as a possible antidepressant. Methods: In placebocontrolled, double-blind study 14 right-handed healthy volunteers (males, right handed) were randomly assigned to 15 min inhalation session either of an admixture of up to a maximum of 25% Xe (25% Xe/30% O2/45% N2) or placebo (70% N2/30% O2) for 15 min. The inspiratory Xe concentration was titrated during the first 5 min until 25% was achieved and maintained for 5 min. Across the study, we had recorded, ECG, SGR, and 64-channel EEG. As a neurophysiological index of the experienced emotion intensity changes individual alpha peak frequency (iAPF) shift was studied. Changes in intensity of experiencing ten discrete emotions (surprise, joy, happiness, bliss, awe, fear, sadness, anxiety, anger, disgust) as indexed by visual analog scales (VAS) were recorded in pre- and post Xe and placebo inhalation conditions. The research received approval of the institutional ethics committee. Results: Repeated measures ANOVAs of the emotional reactivity [(GAZ 2: Xe, placebo) × CONDITION (2: pre, post) × EMOTION (10)] and of the iAPF [(GAZ 2: Xe, placebo) × CONDITION: 2 (pre, post) established high significant specific effects of the Xe compared with placebo. The impact of Xe in a sample of examined subjects revealed two types of responses: in one part, an increase in the experiencing positive emotions intensity, accompanied by the rise in iAPF, in the other, insignificant changes in the initial emotional profile with a tendency to decrease in combination with a decrease in iAPF. Thus, in agreement with ad hoc hypothesis, Xe in sub-anesthetic doses induced the enhancement of the positive emotion intensity experience only in those participants who demonstrated the increasing of the iAPF. Correlation and regression analyses revealed a positive correlation of iAPF changes with an intensity of positive emotional activation (increased power of experiencing emotions of joy, happiness, and bliss), as well as the iAPF shift ability to predict the thymoleptic effect of Xe with 74% probability. Additionally, we were able to deduce that individual nature of changes in iAPF and the nature of emotional-reactivity in response to Xe depend on the absolute value of the baseline iAPF. Conclusions: We had first established that Xe as a blocker of NMDA receptors in sub-anesthetic doses enhances positive emotional activation (increased intensity of experiencing discrete emotions of joy, happiness, and bliss) in healthy volunteers. The presence or absence of the thymoleptic response to Xe varies due to the individual characteristics of the neurophysiological endophenotype of the EEG alpha activity - iAPF. The obtained data allow us to consider iAPF as a potential neurophysiological endophenotypic predictor of an individual thymoleptic response to Xe in sub-anesthetic doses in the clinic of the affective disorders. To assess the real Xe translational potential, as a clinical thymoleptic and antidepressant agent, it is necessary to perform large-scale placebo-controlled clinical studies in patients with various clinical forms of negative affect pathology.

AB - Background: A partial blocker of N-methyl-D-aspartate (NMDA) receptors, the noble gas Xe in sub-anesthetic (25-50%) doses performs its neuroprotective effects on the brain structures functions through binding to glycine site. According to the single studies, Xe reveals the thymoleptic properties, which are reflected in the strengthening of positive emotional activation and a decreasing - negative. The purpose of this placebocontrolled pilot study in healthy volunteers was to evaluate the translational potential of Xe as a possible antidepressant. Methods: In placebocontrolled, double-blind study 14 right-handed healthy volunteers (males, right handed) were randomly assigned to 15 min inhalation session either of an admixture of up to a maximum of 25% Xe (25% Xe/30% O2/45% N2) or placebo (70% N2/30% O2) for 15 min. The inspiratory Xe concentration was titrated during the first 5 min until 25% was achieved and maintained for 5 min. Across the study, we had recorded, ECG, SGR, and 64-channel EEG. As a neurophysiological index of the experienced emotion intensity changes individual alpha peak frequency (iAPF) shift was studied. Changes in intensity of experiencing ten discrete emotions (surprise, joy, happiness, bliss, awe, fear, sadness, anxiety, anger, disgust) as indexed by visual analog scales (VAS) were recorded in pre- and post Xe and placebo inhalation conditions. The research received approval of the institutional ethics committee. Results: Repeated measures ANOVAs of the emotional reactivity [(GAZ 2: Xe, placebo) × CONDITION (2: pre, post) × EMOTION (10)] and of the iAPF [(GAZ 2: Xe, placebo) × CONDITION: 2 (pre, post) established high significant specific effects of the Xe compared with placebo. The impact of Xe in a sample of examined subjects revealed two types of responses: in one part, an increase in the experiencing positive emotions intensity, accompanied by the rise in iAPF, in the other, insignificant changes in the initial emotional profile with a tendency to decrease in combination with a decrease in iAPF. Thus, in agreement with ad hoc hypothesis, Xe in sub-anesthetic doses induced the enhancement of the positive emotion intensity experience only in those participants who demonstrated the increasing of the iAPF. Correlation and regression analyses revealed a positive correlation of iAPF changes with an intensity of positive emotional activation (increased power of experiencing emotions of joy, happiness, and bliss), as well as the iAPF shift ability to predict the thymoleptic effect of Xe with 74% probability. Additionally, we were able to deduce that individual nature of changes in iAPF and the nature of emotional-reactivity in response to Xe depend on the absolute value of the baseline iAPF. Conclusions: We had first established that Xe as a blocker of NMDA receptors in sub-anesthetic doses enhances positive emotional activation (increased intensity of experiencing discrete emotions of joy, happiness, and bliss) in healthy volunteers. The presence or absence of the thymoleptic response to Xe varies due to the individual characteristics of the neurophysiological endophenotype of the EEG alpha activity - iAPF. The obtained data allow us to consider iAPF as a potential neurophysiological endophenotypic predictor of an individual thymoleptic response to Xe in sub-anesthetic doses in the clinic of the affective disorders. To assess the real Xe translational potential, as a clinical thymoleptic and antidepressant agent, it is necessary to perform large-scale placebo-controlled clinical studies in patients with various clinical forms of negative affect pathology.

KW - Depression

KW - EEG

KW - Emotions

KW - Individual alpha peak frequency

KW - Xenon

UR - http://www.scopus.com/inward/record.url?scp=85078326758&partnerID=8YFLogxK

U2 - 10.15690/vramn1158

DO - 10.15690/vramn1158

M3 - Article

AN - SCOPUS:85078326758

VL - 74

SP - 342

EP - 350

JO - Vestnik Rossiiskoi Akademii Meditsinskikh Nauk

JF - Vestnik Rossiiskoi Akademii Meditsinskikh Nauk

SN - 0869-6047

IS - 5

ER -

ID: 23263477