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心脏骤停和心肺复苏期间的颅外低温在体内具有神经保护作用。

Extracranial hypothermia during cardiac arrest and cardiopulmonary resuscitation is neuroprotective in vivo.

作者信息

Hutchens Michael P, Fujiyoshi Tetsuhiro, Koerner Ines P, Herson Paco S

机构信息

Department of Anesthesiology and Perioperative Medicine, Oregon Health and Science University , Portland, Oregon.

出版信息

Ther Hypothermia Temp Manag. 2014 Jun;4(2):79-87. doi: 10.1089/ther.2014.0003. Epub 2014 May 27.

Abstract

There is increasing evidence that ischemic brain injury is modulated by peripheral signaling. Peripheral organ ischemia can induce brain inflammation and injury. We therefore hypothesized that brain injury sustained after cardiac arrest (CA) is influenced by peripheral organ ischemia and that peripheral organ protection can reduce brain injury after CA and cardiopulmonary resuscitation (CPR). Male C57Bl/6 mice were subjected to CA/CPR. Brain temperature was maintained at 37.5°C ± 0.0°C in all animals. Body temperature was maintained at 35.1°C ± 0.1°C (normothermia) or 28.8°C ± 1.5°C (extracranial hypothermia [ExHy]) during CA. Body temperature after resuscitation was maintained at 35°C in all animals. Behavioral testing was performed at 1, 3, 5, and 7 days after CA/CPR. Either 3 or 7 days after CA/CPR, blood was analyzed for serum urea nitrogen, creatinine, alanine aminotransferase, aspartate aminotransferase, and interleukin-1β; mice were euthanized; and brains were sectioned. CA/CPR caused peripheral organ and brain injury. ExHy animals experienced transient reduction in brain temperature after resuscitation (2.1°C ± 0.5°C for 4 minutes). Surprisingly, ExHy did not change peripheral organ damage. In contrast, hippocampal injury was reduced at 3 days after CA/CPR in ExHy animals (22.4% ± 6.2% vs. 45.7% ± 9.1%, p=0.04, n=15/group). This study has two main findings. Hypothermia limited to CA does not reduce peripheral organ injury. This unexpected finding suggests that after brief ischemia, such as during CA/CPR, signaling or events after reperfusion may be more injurious than those during the ischemic period. Second, peripheral organ hypothermia during CA reduces hippocampal injury independent of peripheral organ protection. While it is possible that this protection is due to subtle differences in brain temperature during early reperfusion, we speculate that additional mechanisms may be involved. Our findings add to the growing understanding of brain-body cross-talk by suggesting that peripheral interventions can protect the brain even if peripheral organ injury is not altered.

摘要

越来越多的证据表明,缺血性脑损伤受外周信号调节。外周器官缺血可诱发脑炎症和损伤。因此,我们推测心脏骤停(CA)后持续的脑损伤受外周器官缺血影响,且外周器官保护可减轻CA及心肺复苏(CPR)后脑损伤。将雄性C57Bl/6小鼠进行CA/CPR。所有动物的脑温维持在37.5°C±0.0°C。CA期间,体温维持在35.1°C±0.1°C(正常体温)或28.8°C±1.5°C(颅外低温[ExHy])。复苏后所有动物的体温维持在35°C。在CA/CPR后1、3、5和7天进行行为测试。在CA/CPR后3天或7天,分析血液中的血清尿素氮、肌酐、丙氨酸转氨酶、天冬氨酸转氨酶和白细胞介素-1β;对小鼠实施安乐死;并对脑进行切片。CA/CPR导致外周器官和脑损伤。ExHy动物复苏后脑温出现短暂降低(4分钟内为2.1°C±0.5°C)。令人惊讶的是,ExHy并未改变外周器官损伤。相反,ExHy动物在CA/CPR后3天海马损伤减轻(22.4%±6.2%对45.7%±9.1%,p=0.04,每组n=15)。本研究有两个主要发现。仅限于CA期间的低温并不能减轻外周器官损伤。这一意外发现表明,在短暂缺血后,如CA/CPR期间,再灌注后的信号传导或事件可能比缺血期更具损伤性。其次,CA期间外周器官低温可减轻海马损伤,且与外周器官保护无关。虽然这种保护可能是由于早期再灌注期间脑温的细微差异,但我们推测可能涉及其他机制。我们的发现表明,即使外周器官损伤未改变,外周干预仍可保护大脑,这进一步加深了我们对脑-体相互作用的理解。

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