Rol' oksida azota v tserebral'noi vazokonstriktsii u krys pri dykhanii kislorodom pod davleniiem.

I. T. Demchenko; A. E. Bosso; S. I. Zhiliaev; A. N. Moskvin; Diana Raisovna Gutsaeva; D. N. Atochin; P. B. Bennett; K. A. Piantadossi

Rol' oksida azota v tserebral'noi vazokonstriktsii u krys pri dykhanii kislorodom pod davleniiem.

Translated title of the contribution: Involvement of nitrogen oxide in the cerebral vasoconstriction during respiration with high pressure oxygen

I. T. Demchenko, A. E. Bosso, S. I. Zhiliaev, A. N. Moskvin, Diana Raisovna Gutsaeva, D. N. Atochin, P. B. Bennett, K. A. Piantadossi

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

9 Scopus citations

Abstract

High pressure oxygen evokes a cerebral vasoconstriction and diminishes cerebral blood flow with the aid of mechanisms which are not yet sufficiently studied. We were checking a hypothesis that the hyperbaric oxygen (HBO2) inactivates cerebral nitrogen oxide (NO), interrupts its basal relaxing effect, and evokes a vasoconstriction. In our experiments, HBO2 decreased cerebral blood flow depending on the pressure. Inhibiting the NO-synthase weakened basal vasorelaxation in breathing with atmosphere air and eliminated the vasoconstriction in exposure to the HBO2. Inactivation of O2 prevented the HBO2-induced vasoconstriction. The data obtained reveal that diminishing of cerebral blood flow in HBO is related to the NO inactivation and weakening of its basal vasorelaxing effect. Possible mechanisms of the NO inactivation may involve its reaction with oxygen and superoxide anion which lead to diminishing of the tissue NO concentration and weakening of its vasorelaxing effect.

Translated title of the contribution	Involvement of nitrogen oxide in the cerebral vasoconstriction during respiration with high pressure oxygen
Original language	Russian
Pages (from-to)	1594-1603
Number of pages	10
Journal	Rossiiskii fiziologicheskii zhurnal imeni I.M. Sechenova / Rossiiskaia akademiia nauk
Volume	86
Issue number	12
State	Published - Jan 1 2000
Externally published	Yes

ASJC Scopus subject areas

General Medicine

Cite this

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title = "Rol' oksida azota v tserebral'noi vazokonstriktsii u krys pri dykhanii kislorodom pod davleniiem.",

abstract = "High pressure oxygen evokes a cerebral vasoconstriction and diminishes cerebral blood flow with the aid of mechanisms which are not yet sufficiently studied. We were checking a hypothesis that the hyperbaric oxygen (HBO2) inactivates cerebral nitrogen oxide (NO), interrupts its basal relaxing effect, and evokes a vasoconstriction. In our experiments, HBO2 decreased cerebral blood flow depending on the pressure. Inhibiting the NO-synthase weakened basal vasorelaxation in breathing with atmosphere air and eliminated the vasoconstriction in exposure to the HBO2. Inactivation of O2 prevented the HBO2-induced vasoconstriction. The data obtained reveal that diminishing of cerebral blood flow in HBO is related to the NO inactivation and weakening of its basal vasorelaxing effect. Possible mechanisms of the NO inactivation may involve its reaction with oxygen and superoxide anion which lead to diminishing of the tissue NO concentration and weakening of its vasorelaxing effect.",

author = "Demchenko, {I. T.} and Bosso, {A. E.} and Zhiliaev, {S. I.} and Moskvin, {A. N.} and Gutsaeva, {Diana Raisovna} and Atochin, {D. N.} and Bennett, {P. B.} and Piantadossi, {K. A.}",

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T1 - Rol' oksida azota v tserebral'noi vazokonstriktsii u krys pri dykhanii kislorodom pod davleniiem.

AU - Demchenko, I. T.

AU - Bosso, A. E.

AU - Zhiliaev, S. I.

AU - Moskvin, A. N.

AU - Gutsaeva, Diana Raisovna

AU - Atochin, D. N.

AU - Bennett, P. B.

AU - Piantadossi, K. A.

PY - 2000/1/1

Y1 - 2000/1/1

N2 - High pressure oxygen evokes a cerebral vasoconstriction and diminishes cerebral blood flow with the aid of mechanisms which are not yet sufficiently studied. We were checking a hypothesis that the hyperbaric oxygen (HBO2) inactivates cerebral nitrogen oxide (NO), interrupts its basal relaxing effect, and evokes a vasoconstriction. In our experiments, HBO2 decreased cerebral blood flow depending on the pressure. Inhibiting the NO-synthase weakened basal vasorelaxation in breathing with atmosphere air and eliminated the vasoconstriction in exposure to the HBO2. Inactivation of O2 prevented the HBO2-induced vasoconstriction. The data obtained reveal that diminishing of cerebral blood flow in HBO is related to the NO inactivation and weakening of its basal vasorelaxing effect. Possible mechanisms of the NO inactivation may involve its reaction with oxygen and superoxide anion which lead to diminishing of the tissue NO concentration and weakening of its vasorelaxing effect.

AB - High pressure oxygen evokes a cerebral vasoconstriction and diminishes cerebral blood flow with the aid of mechanisms which are not yet sufficiently studied. We were checking a hypothesis that the hyperbaric oxygen (HBO2) inactivates cerebral nitrogen oxide (NO), interrupts its basal relaxing effect, and evokes a vasoconstriction. In our experiments, HBO2 decreased cerebral blood flow depending on the pressure. Inhibiting the NO-synthase weakened basal vasorelaxation in breathing with atmosphere air and eliminated the vasoconstriction in exposure to the HBO2. Inactivation of O2 prevented the HBO2-induced vasoconstriction. The data obtained reveal that diminishing of cerebral blood flow in HBO is related to the NO inactivation and weakening of its basal vasorelaxing effect. Possible mechanisms of the NO inactivation may involve its reaction with oxygen and superoxide anion which lead to diminishing of the tissue NO concentration and weakening of its vasorelaxing effect.

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ER -

Rol' oksida azota v tserebral'noi vazokonstriktsii u krys pri dykhanii kislorodom pod davleniiem.

Abstract

ASJC Scopus subject areas

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