氢气吸入在常压复苏期间改善心脏骤停大鼠模型的神经功能预后，与目标温度管理无关。

Hydrogen inhalation during normoxic resuscitation improves neurological outcome in a rat model of cardiac arrest independently of targeted temperature management.

机构信息

From the Department of Emergency and Critical Care Medicine (K.H., M.S., S.H.) and Department of Cardiology (M.S., K.F.), School of Medicine, Keio University, Tokyo, Japan; and Department of Biochemistry and Cell Biology, Institute of Development and Aging Science, Graduate School of Medicine, Nippon Medical School, Kanagawa, Japan (N.K., T.Y., S.O.).

出版信息

Circulation. 2014 Dec 9;130(24):2173-80. doi: 10.1161/CIRCULATIONAHA.114.011848. Epub 2014 Nov 3.

DOI:10.1161/CIRCULATIONAHA.114.011848

PMID:25366995

Abstract

BACKGROUND

We have previously shown that hydrogen (H2) inhalation, begun at the start of hyperoxic cardiopulmonary resuscitation, significantly improves brain and cardiac function in a rat model of cardiac arrest. Here, we examine the effectiveness of this therapeutic approach when H2 inhalation is begun on the return of spontaneous circulation (ROSC) under normoxic conditions, either alone or in combination with targeted temperature management (TTM).

METHODS AND RESULTS

Rats were subjected to 6 minutes of ventricular fibrillation cardiac arrest followed by cardiopulmonary resuscitation. Five minutes after achieving ROSC, post-cardiac arrest rats were randomized into 4 groups: mechanically ventilated with 26% O2 and normothermia (control); mechanically ventilated with 26% O2, 1.3% H2, and normothermia (H2); mechanically ventilated with 26% O2 and TTM (TTM); and mechanically ventilated with 26% O2, 1.3% H2, and TTM (TTM+H2). Animal survival rate at 7 days after ROSC was 38.4% in the control group, 71.4% in the H2 and TTM groups, and 85.7% in the TTM+H2 group. Combined therapy of TTM and H2 inhalation was superior to TTM alone in terms of neurological deficit scores at 24, 48, and 72 hours after ROSC, and motor activity at 7 days after ROSC. Neuronal degeneration and microglial activation in a vulnerable brain region was suppressed by both TTM alone and H2 inhalation alone, with the combined therapy of TTM and H2 inhalation being most effective.

CONCLUSIONS

H2 inhalation was beneficial when begun after ROSC, even when delivered in the absence of hyperoxia. Combined TTM and H2 inhalation was more effective than TTM alone.

摘要

背景

我们之前的研究表明，在高氧心肺复苏开始时吸入氢气（H2）可显著改善心脏骤停大鼠模型的脑和心脏功能。在这里，我们研究了在正常氧条件下自主循环恢复（ROSC）时开始这种治疗方法的效果，单独使用或与目标温度管理（TTM）联合使用。

方法和结果

大鼠经历 6 分钟的心室颤动性心脏骤停，然后进行心肺复苏。ROSC 后 5 分钟，将心脏骤停后大鼠随机分为 4 组：接受 26% O2 和正常体温的机械通气（对照组）；接受 26% O2、1.3% H2 和正常体温的机械通气（H2 组）；接受 26% O2 和 TTM 的机械通气（TTM 组）；以及接受 26% O2、1.3% H2 和 TTM 的机械通气（TTM+H2 组）。ROSC 后 7 天，对照组动物存活率为 38.4%，H2 和 TTM 组为 71.4%，TTM+H2 组为 85.7%。与 TTM 单独治疗相比，TTM 和 H2 吸入联合治疗在 ROSC 后 24、48 和 72 小时的神经功能缺损评分以及 ROSC 后 7 天的运动活动方面更具优势。TTM 单独和 H2 吸入单独均可抑制易损脑区的神经元变性和小胶质细胞激活，而 TTM 和 H2 联合治疗的效果最为显著。

结论

即使在没有高氧的情况下，ROSC 后开始吸入 H2 也是有益的。与 TTM 单独治疗相比，联合 TTM 和 H2 吸入治疗更有效。

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Hydrogen inhalation during normoxic resuscitation improves neurological outcome in a rat model of cardiac arrest independently of targeted temperature management.氢气吸入在常压复苏期间改善心脏骤停大鼠模型的神经功能预后，与目标温度管理无关。

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氢气吸入在常压复苏期间改善心脏骤停大鼠模型的神经功能预后，与目标温度管理无关。

Hydrogen inhalation during normoxic resuscitation improves neurological outcome in a rat model of cardiac arrest independently of targeted temperature management.

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法和结果

结论

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