长时间心脏停搏后的复苏:心肺转流和钠氢交换抑制对心肌和神经恢复的影响。
Resuscitation after prolonged cardiac arrest: effects of cardiopulmonary bypass and sodium-hydrogen exchange inhibition on myocardial and neurological recovery.
机构信息
Department of Surgery, Division of Cardiothoracic Surgery, David Geffen School of Medicine at University of California Los Angeles, Los Angeles, CA, USA.
出版信息
Eur J Cardiothorac Surg. 2011 Oct;40(4):978-84. doi: 10.1016/j.ejcts.2011.02.002. Epub 2011 Mar 11.
OBJECTIVE
To determine if cardiopulmonary bypass (CPB), together with inhibition of the sodium-hydrogen exchanger (NHE), limits myocardial and neurological injury and improves recovery after prolonged (unwitnessed) cardiac arrest (CA), as NHE inhibition improved recovery after deep hypothermic circulatory arrest.
METHODS
Twenty-seven pigs (31-39 kg) underwent 15 min of prolonged (no-flow) CA followed by 10 min of cardiopulmonary resuscitation-advanced life support (CPR-ALS). Subjects with restoration of spontaneous circulation (ROSC) during CPR-ALS received either no drug (n=6) or an inhibitor of the NHE (HOE-642; n=5). In the 16 unsuccessfully resuscitated animals, peripheral normothermic CPB was instituted, and either no drug (n=9) or similar HOE-642 (n=7) therapy started. Hemodynamic data, a species-specific neurological deficit score (0=normal to 500=brain death), and mortality were recorded at 24h, and biochemical variables of organ injury measured.
RESULTS
CPR-ALS restored ROSC in 41% (11/27) of animals, but was unsuccessful in 59% (16/27) that required CPB. Without CPB, HOE-642 increased cardiac index and decreased vascular resistance; with CPB, HOE-642 caused higher pump flows (3.4±0.6 l min(-1)m(-2) vs 2.5±0.7 l min(-1)m(-2); p<0.001) and higher post-arrest cardiac index; but animals required more vasopressors (p=0.019) from drug-induced vasodilation. No differences between biochemical markers of oxidative and organ injury and overall 24-h mortality (20%) were found between groups. Neurological score was improved at 24h compared with 4h only after HOE-642 treatment with (150±34 vs 220±43; p=0.003) or without CPB (162±39 vs 238±48; p≤0.001), but failed to reach statistical difference with respect to the untreated group.
CONCLUSIONS
CPB is an effective resuscitative tool to treat prolonged CA but there is limited improvement of neurological function. NHE inhibition augments cardiac and neurological function, but its effect was less pronounced than in other studies.
目的
确定心肺旁路(CPB)与钠氢交换抑制剂(NHEI)联合应用是否可以限制心肌和神经损伤,并改善长时间(未目击)心脏骤停(CA)后的复苏,因为 NHEI 可改善深低温循环停止后的复苏。
方法
27 头猪(31-39kg)接受 15 分钟的长时间(无血流)CA 后,进行心肺复苏-高级生命支持(CPR-ALS)10 分钟。CPR-ALS 期间恢复自主循环(ROSC)的受试者接受无药物(n=6)或 NHE 抑制剂(HOE-642;n=5)治疗。在 16 例复苏不成功的动物中,建立外周常温 CPB,并开始给予无药物(n=9)或类似 HOE-642(n=7)治疗。在 24 小时记录血流动力学数据、种特异性神经缺陷评分(0=正常至 500=脑死亡)和死亡率,并测量器官损伤的生化变量。
结果
CPR-ALS 在 41%(11/27)的动物中恢复了 ROSC,但在 59%(16/27)需要 CPB 的动物中不成功。无 CPB 时,HOE-642 增加心指数,降低血管阻力;CPB 时,HOE-642 导致更高的泵流量(3.4±0.6 l min(-1)m(-2) vs 2.5±0.7 l min(-1)m(-2);p<0.001)和更高的停搏后心指数;但药物诱导的血管扩张导致动物需要更多的血管加压药(p=0.019)。各组之间氧化和器官损伤的生化标志物以及 24 小时总死亡率(20%)无差异。仅在用 HOE-642 治疗(150±34 比 220±43;p=0.003)或无 CPB 时(162±39 比 238±48;p≤0.001),24 小时神经评分较 4 小时改善,但与未治疗组相比,未达到统计学差异。
结论
CPB 是治疗长时间 CA 的有效复苏工具,但对神经功能的改善有限。NHEI 可增强心功能和神经功能,但效果不如其他研究明显。
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