Cardiopulmonary Resuscitation May Not Stop Glutamate Release in the Cerebral Cortex.

IF 2.3 2区医学 Q2 ANESTHESIOLOGY

Journal of neurosurgical anesthesiology Pub Date : 2023-07-01 DOI:10.1097/ANA.0000000000000838

Miki Fushimi, Yoshimasa Takeda, Ryoichi Mizoue, Sachiko Sato, Hirokazu Kawase, Yuji Takasugi, Satoshi Murai, Hiroshi Morimatsu

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引用次数: 0

Abstract

Background: Cardiopulmonary resuscitation (CPR) may not be sufficient to halt the progression of brain damage. Using extracellular glutamate concentration as a marker for neuronal damage, we quantitatively evaluated the degree of brain damage during resuscitation without return of spontaneous circulation.

Materials and methods: Extracellular cerebral glutamate concentration was measured with a microdialysis probe every 2 minutes for 40 minutes after electrical stimulation-induced cardiac arrest without return of spontaneous circulation in Sprague-Dawley rats. The rats were divided into 3 groups (7 per group) according to the treatment received during the 40 minutes observation period: mechanical ventilation without chest compression (group V); mechanical ventilation and chest compression (group VC) and; ventilation, chest compression and brain hypothermia (group VCH). Chest compression (20 min) and hypothermia (40 min) were initiated 6 minutes after the onset of cardiac arrest.

Results: Glutamate concentration increased in all groups after cardiac arrest. Although after the onset of chest compression, glutamate concentration showed a significant difference at 2 min and reached the maximum at 6 min (VC group; 284±48 μmol/L vs. V group 398±126 μmol/L, P =0.003), there was no difference toward the end of chest compression (513±61 μmol/L vs. 588±103 μmol/L, P =0.051). In the VCH group, the initial increase in glutamate concentration was suddenly suppressed 2 minutes after the onset of brain hypothermia.

Conclusions: CPR alone reduced the progression of brain damage for a limited period but CPR in combination with brain cooling strongly suppressed increases in glutamate levels.

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心肺复苏可能无法阻止大脑皮层谷氨酸释放。

背景:心肺复苏(CPR)可能不足以阻止脑损伤的进展。利用细胞外谷氨酸浓度作为神经元损伤的标志物，我们定量评估了在没有自然循环恢复的复苏过程中脑损伤的程度。材料与方法:在电刺激引起的心脏骤停无自然循环恢复后的40分钟内，用微透析探针每2分钟测量一次细胞外脑谷氨酸浓度。根据40 min观察期内的治疗情况将大鼠分为3组(每组7只):无胸压机械通气组(V组);机械通气加胸外按压(VC组);通气、胸外按压和脑低温(VCH组)。在心脏骤停6分钟后开始胸外按压(20分钟)和低温治疗(40分钟)。结果:心脏骤停后各组谷氨酸浓度均升高。虽然在胸压开始后，谷氨酸浓度在2 min出现显著差异，在6 min达到最大值(VC组;(284±48 μmol/L) vs(398±126 μmol/L, P =0.003)，在胸压结束时差异无统计学意义(513±61 μmol/L vs(588±103 μmol/L, P =0.051)。在VCH组，最初的谷氨酸浓度升高在脑低温发生2分钟后突然被抑制。结论:单纯心肺复苏术在有限的时间内减少了脑损伤的进展，但心肺复苏术联合脑冷却有力地抑制了谷氨酸水平的增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of neurosurgical anesthesiology 医学-临床神经学

CiteScore

6.20

自引率

10.80%

发文量

119

审稿时长

>12 weeks

期刊介绍： The Journal of Neurosurgical Anesthesiology (JNA) is a peer-reviewed publication directed to an audience of neuroanesthesiologists, neurosurgeons, neurosurgical monitoring specialists, neurosurgical support staff, and Neurosurgical Intensive Care Unit personnel. The journal publishes original peer-reviewed studies in the form of Clinical Investigations, Laboratory Investigations, Clinical Reports, Review Articles, Journal Club synopses of current literature from related journals, presentation of Points of View on controversial issues, Book Reviews, Correspondence, and Abstracts from affiliated neuroanesthesiology societies. JNA is the Official Journal of the Society for Neuroscience in Anesthesiology and Critical Care, the Neuroanaesthesia and Critical Care Society of Great Britain and Ireland, the Association de Neuro-Anesthésiologie Réanimation de langue Française, the Wissenschaftlicher Arbeitskreis Neuroanästhesie der Deutschen Gesellschaft fur Anästhesiologie und Intensivmedizen, the Arbeitsgemeinschaft Deutschsprachiger Neuroanästhesisten und Neuro-Intensivmediziner, the Korean Society of Neuroanesthesia, the Japanese Society of Neuroanesthesia and Critical Care, the Neuroanesthesiology Chapter of the Colegio Mexicano de Anesthesiología, the Indian Society of Neuroanesthesiology and Critical Care, and the Thai Society for Neuroanesthesia.