振幅谱面积正确预测了头部冷却时复苏的改善和除颤的便利。
The amplitude spectrum area correctly predicts improved resuscitation and facilitated defibrillation with head cooling.
机构信息
Well Institute of Critical Care Medicine, Rancho Mirage, CA, USA.
出版信息
Crit Care Med. 2008 Nov;36(11 Suppl):S413-7. doi: 10.1097/ccm.0b013e31818a819b.
OBJECTIVES
When systemic hypothermia was maintained before inducing cardiac arrest, the likelihood of successful defibrillation and meaningful survival was increased. When hypothermia is induced during cardiopulmonary resuscitation, mortality is also improved. With the introduction of the amplitude spectrum area as a predictor of the success of electrical defibrillation, we investigated the effect of preferential head cooling initiated coincident with cardiopulmonary resuscitation on amplitude spectrum area as a predictor. We hypothesized that rapid head cooling initiated coincident with cardiopulmonary resuscitation improves amplitude spectrum area, and therefore is predictive of successful defibrillation.
DESIGN
Prospective randomized controlled study.
SETTING
University-affiliated research institute.
SUBJECTS
Domestic pigs.
INTERVENTIONS
Sixteen pigs, weighing 40.6 +/- 1.4 kg, were randomized to the hypothermia (n = 8), or control (n = 8) group. Ventricular fibrillation was induced and untreated for 10 mins. Cardiopulmonary resuscitation was then initiated for 5 mins followed by attempted defibrillation with a biphasic 150-J electric shock. Coincident with starting cardiopulmonary resuscitation, hypothermia was induced with evaporative intranasal cooling using a perfluorochemical. If spontaneous circulation was not restored after defibrillation, cardiopulmonary resuscitation was resumed for 1 min before the next defibrillation attempt until the animal was either successfully resuscitated or for a total of 15 mins. The target core temperature was 34 degrees C. Control animals were identically treated except for hypothermia.
MEASUREMENTS AND MAIN RESULTS
Five seconds of ventricular fibrillation waveform were recorded immediately preceding delivery of a shock. The ventricular fibrillation waveforms were analyzed using the amplitude spectrum area algorithm. A smaller epinephrine dose (60 +/- 32.1 vs. 30 +/- 0 mg/mL, p = .01) and shorter cardiopulmonary resuscitation duration (365 +/- 42 sec vs. 600 +/- 243 sec, p = .01) were required to achieve return of spontaneous circulation in the hypothermia group, compared with control. Five minutes after starting cardiopulmonary resuscitation, head temperature was reduced from 38 degrees C to 34 degrees C in the hypothermia group (p = .028). Hypothermia improved the success of electrical shocks before return of spontaneous circulation (88 +/- 18% vs. 66 +/- 19%, p = .034). Both the amplitude spectrum area values of initial shock (26.1 +/- 5.3 vs. 21.4 +/- 2.16 mV-Hz, p = .049) and total shocks (26.1 +/- 5.3 vs. 21.4 +/- 2.16 mV-Hz, p = .006) were significantly higher in the hypothermia group than control.
CONCLUSIONS
Amplitude spectrum area served as a useful predictor for improved resuscitation and facilitated defibrillation in the setting of rapid head cooling initiated coincident with cardiopulmonary resuscitation.
目的
在诱发心脏骤停前进行全身低温治疗可增加除颤成功和有意义生存的可能性。在心肺复苏过程中诱导低温时,死亡率也会降低。随着幅度谱面积作为电除颤成功预测指标的引入,我们研究了在心肺复苏同时开始优先头部冷却对幅度谱面积作为预测指标的影响。我们假设,在心肺复苏同时开始快速头部冷却可以改善幅度谱面积,因此可以预测除颤成功。
设计
前瞻性随机对照研究。
地点
大学附属研究所。
研究对象
家猪。
干预措施
16 头体重 40.6 ± 1.4kg 的猪随机分为低温组(n=8)和对照组(n=8)。诱导心室颤动并未经治疗 10 分钟。然后开始心肺复苏 5 分钟,随后用双相 150-J 电击尝试除颤。与开始心肺复苏同时,使用全氟碳蒸发经鼻冷却进行低温诱导。如果电击后未恢复自主循环,则在再次电击前继续心肺复苏 1 分钟,直到动物成功复苏或总共 15 分钟。目标核心温度为 34°C。对照动物接受相同的治疗,但不进行低温治疗。
测量和主要结果
在给予电击前立即记录 5 秒的心室颤动波形。使用幅度谱面积算法分析心室颤动波形。低温组需要较低的肾上腺素剂量(60 ± 32.1 比 30 ± 0mg/mL,p=0.01)和较短的心肺复苏持续时间(365 ± 42 秒比 600 ± 243 秒,p=0.01)才能恢复自主循环。在开始心肺复苏后 5 分钟时,低温组头部温度从 38°C降至 34°C(p=0.028)。低温治疗改善了自主循环恢复前电击的成功率(88 ± 18%比 66 ± 19%,p=0.034)。低温组初始电击的幅度谱面积值(26.1 ± 5.3 比 21.4 ± 2.16mV-Hz,p=0.049)和总电击的幅度谱面积值(26.1 ± 5.3 比 21.4 ± 2.16mV-Hz,p=0.006)均明显高于对照组。
结论
在与心肺复苏同时开始的快速头部冷却的情况下,幅度谱面积作为一种有用的预测指标,有助于改善复苏并促进除颤。
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