亚麻醉剂量一氧化二氮对脑血流和代谢的影响：一项健康志愿者的多模态磁共振成像研究。

Effects of subanesthetic dose of nitrous oxide on cerebral blood flow and metabolism: a multimodal magnetic resonance imaging study in healthy volunteers.

机构信息

Division of Radiological and Imaging Sciences, the Division of Anaesthesia and Intensive Care, School of Clinical Sciences, University of Nottingham, Nottingham, UnitedKingdom.

出版信息

Anesthesiology. 2013 Mar;118(3):577-86. doi: 10.1097/ALN.0b013e3182800d58.

DOI:10.1097/ALN.0b013e3182800d58

PMID:23324809

Abstract

BACKGROUND

Nitrous oxide, in a concentration of 50% or more, is a known cerebral vasodilator. This study investigated whether a lower dose (30%) of nitrous oxide would also increase cerebral blood flow. In addition, the authors wished to study whether the increase in cerebral blood flow was accompanied by an increase in cerebral metabolism.

METHODS

Multimodal Magnetic Resonance Imaging at 3T was performed, and data were obtained in 17 healthy volunteers during three inhalation conditions: medical air, oxygen-enriched medical air (40% oxygen), and 30% nitrous oxide with oxygen-enriched medical air (40% oxygen). Arterial spin labeling was used to derive the primary tissue specific hemodynamic outcomes: cerebral blood flow, arterial blood volume and arterial transit times. Magnetic Resonance Susceptometry and proton Magnetic Resonance Spectroscopy were used for secondary metabolic outcomes: venous oxygenation, oxygen extraction fraction, cerebral metabolic oxygen rate and prefrontal metabolites.

RESULTS

Nitrous oxide in 40% oxygen, but not 40% oxygen alone, significantly increased gray matter cerebral blood flow (22%; P < 0.05) and arterial blood volume (41%; P < 0.05). Venous oxygenation increased in both oxygen and nitrous oxide conditions. Compared with medical air inhalation, nitrous oxide condition caused a significantly larger decrease in oxygen extraction fraction than 40% oxygen alone (mean [SD] 11.3 [5.6]% vs. 8.3 [5.9]% P < 0.05), while global cerebral metabolic rate and prefrontal metabolites remained unchanged.

CONCLUSIONS

This study demonstrates that 30% nitrous oxide in oxygen-enriched air (40% oxygen) significantly increases cerebral perfusion, and reduces oxygen extraction fraction, reflecting a strong arterial vasodilatory effect without associated increases in metabolism.

摘要

背景

一氧化二氮（浓度为 50%或更高）是一种已知的脑血管扩张剂。本研究旨在探究较低剂量（30%）的一氧化二氮是否也能增加脑血流量。此外，作者还希望研究脑血流量的增加是否伴随着脑代谢的增加。

方法

在 3T 多模态磁共振成像下，17 名健康志愿者分别在三种吸入条件下完成实验：医用空气、富氧医用空气（40%氧气）和富氧医用空气（40%氧气）中的 30%一氧化二氮。动脉自旋标记用于获得主要的组织特异性血液动力学结果：脑血流量、动脉血容量和动脉通过时间。磁共振磁化率和质子磁共振波谱用于获得次要代谢结果：静脉氧合、氧提取分数、脑代谢氧率和前额叶代谢物。

结果

40%氧气中的一氧化二氮，而不是单独的 40%氧气，显著增加了灰质脑血流量（22%；P<0.05）和动脉血容量（41%；P<0.05）。静脉氧合在氧气和一氧化二氮条件下均增加。与医用空气吸入相比，一氧化二氮条件下的氧提取分数明显低于单独使用 40%氧气（11.3[5.6]%对 8.3[5.9]%；P<0.05），而全局脑代谢率和前额叶代谢物保持不变。

结论

本研究表明，富氧空气（40%氧气）中的 30%一氧化二氮可显著增加脑灌注，并降低氧提取分数，反映出强烈的动脉血管扩张作用，而没有代谢的相应增加。

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亚麻醉剂量一氧化二氮对脑血流和代谢的影响：一项健康志愿者的多模态磁共振成像研究。

Effects of subanesthetic dose of nitrous oxide on cerebral blood flow and metabolism: a multimodal magnetic resonance imaging study in healthy volunteers.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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